Abstracts - SSW
ABSTRACTS
ABSTRACTS BOOKLET
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ABSTRACTS OF ORAL PRESENTATIONS
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CONTRIBUTION OF MICROMETEOROID IMPACTS TO THE EXOSPHERES OF THE GALILEAN MOONS GANYMEDE AND EUROPA - ROZENN ROBIDELThe exosphere is a thin atmosphere where the density is so low that atoms and molecules are unlikely to collide with each other. In the case of bodies with a substantial atmosphere (e.g. the Earth, Mars), the exosphere is the uppermost layer of the atmosphere, where it thins out and merges with outer space. In the case of airless bodies (e.g. the Moon, Mercury), the exosphere is the only atmosphere, in direct contact with the surface. |
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MARS SMALLSAT MISSION & INSTRUMENTATION STUDIES FOR GLOBAL METEOROLOGY & SPACE WEATHER MONITORING - ALEJANDRO CARDESIN-MOINELOWe present here various scientific studies and efforts by the Martian atmospheric and magnetospheric science community, supporting the study and development of mission concepts with future small satellites and instrumentation that could be flown in orbit around Mars for meteorological and space weather monitoring, in line with the science and exploration priorities of ESA (SciSpaceE White Papers, Report & TerraNovae2030+) and NASA (MEPAG Future Program). Past and present Mars orbiters have provided great information on Mars surface and atmosphere, but focused mostly on targeted high-resolution measurements, lacking continuous global coverage. References |
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UNVEIL THE MICROPHYSICAL PROPERTIES OF EUROPA AND GANYMEDE SURFACES - GUILLAUME CRUZ MERMYEuropa and Ganymede are two moons of Jupiter with strong evidence for the presence of deep reservoirs of liquid water beneath their icy crust. They are also exposed to intense space weathering due to the continuous bombardment of electrons and ions from Jupiter's magnetosphere. Their surfaces therefore appear to be the key witness for understanding endogenous and exogenous processes, and for characterizing the state and evolution of these moons. Using reflectance spectroscopy, the study of the amount of light reflected as a function of wavelength, numerous studies have already revealed a wide variety of chemical compounds associated with water ice, such as sulfates, oxidants and chlorinates, confirming that these moons are prime candidates in the search for habitability in the solar system. However, surface composition alone cannot distinguish between endogenous and exogenous processes. To do so, it is necessary to finely characterize the microphysics of the ice (volume abundance, grain size, surface roughness, porosity). Using accurate radiative transfer modeling and Bayesian inference framework, we aim at retrieving such properties. By combining the data from the Galileo/NIMS instrument at moderate spectral resolution but high spatial resolution with the recent JWST/NIRSpec very high spectral resolution data we want to produce maps of the surface microphysical properties to differentiate between endogenous and exogenous processes. |
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Determining the size distribution of asteroids is key for understanding the collisional history and evolution of the inner Solar System - PABLO GARCÍA MARTÍNAims. We aim at improving our knowledge on the size distribution of small asteroids in the Main Belt by determining the parallaxes of newly detected asteroids in the Hubble Space Telescope (HST) Archive and hence their absolute magnitudes and sizes. Results. In this work we analyse a set of 632 serendipitously imaged asteroids found in the ESA HST Archive. These objects were obtained from instruments ACS/WFC and WFC3/UVIS. An object-detection machine learning algorithm (trained with the results of a citizen science project) was used to perform this task during previous work. Our raw data consists of 1,031 asteroid trails from unknown objects, not matching any entries in the Minor Planet Center (MPC) database using their coordinates and imaging time. We also found 670 trails from known objects (objects featuring matching entries in the MPC). After an accuracy assessment and filtering process, our analysed HST asteroid set consists of 454 unknown objects and 178 known objects. We obtain a sample dominated by potential Main Belt objects featuring absolute magnitudes (H) mostly between 15 and 22 mag. The absolute magnitude cumulative distribution logN(H > H0) ∝ α log(H0) confirms the previously reported slope change for 15 < H < 18, from α ≈ 0.56 to α ≈ 0.26, maintained in our case down to absolute magnitudes around H ≈ 20, hence expanding the previous result by approximately two magnitudes. Conclusions. HST archival observations can be used as an asteroid survey since the telescope pointings are statistically ran- domly oriented in the sky and they cover long periods of time. They allow to expand the current best samples of astronomical objects at no extra cost on telescope time. Article: https://arxiv.org/abs/2401.02605 |
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CAPTIVATING COMMUNICATIONS: CATCHING AND KEEPING YOUR AUDIENCE'S WANDERING EYE - NICOLE SHEARERYour audience matters more than you do. You have only a few seconds to grab their attention, and they can look away at any time. If you want to be heard, you have to keep them at the centre of everything you write, say and create. What's the best way of getting them to read an article, watch a video, or pay attention during your presentation? How can we compete with funny cat videos, clickbait-y space drama and *ahem* bigger space agencies? This is a big, complex subject; two ESA Science editors will squeeze what they can into this 30 minute slot. |
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EXPLORING NEUTRON STARS' DEVOURING NATURE THROUGH STELLAR WIND STUDIES - CAMILLE DIEZThe spectral and timing behaviour of High-Mass X-ray Binaries (HMXBs) offers a unique opportunity for the investigation of accretion onto compact objects and of wind structure in massive stars. The bright and persistent neutron star HMXB Vela X-1 is one of the key systems for such studies with both current and future instruments. It has a complex clumpy stellar wind, prominent cyclotron resonant scattering features (CRSFs) and strong flares. Understanding the variability of the system on both short time scales of a few hundreds seconds and along its 9d orbit with current instruments enables us to make predictions for future observations with XRISM and Athena and to devise the best observational strategy for Vela X-1. |
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WAS BEPICOLOMBO'S SECOND SWINGBY THE FIRST EVER PASSAGE THROUGH THE SOUTHERN PLASMA RING? - WILLI EXNERAlthough the first three Mercury swingbys of BepiColombo had very similar trajectory configurations, plasma and magnetic field observations of the second swingby revealed a peculiar signature that had never been seen before. |
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MEDIUM RESOLUTION 0.97-5.3 MICRON SPECTRA OF VERY YOUNG BENCHMARK BROWN DWARFS WITH NIRSPEC ONBOARD THE JAMES WEBB SPACE TELESCOPE - ELENA MANJAVACASSpectra of young benchmark brown dwarfs with well-known ages is vital to characterize other brown dwarfs for which their ages are in general not known. These spectra are also crucial to test atmospheric models, in particular atmospheric retrieval models, which have the potential to provide detailed information about the atmospheres of these objects. However, to fully test atmospheric models, medium-resolution, long-wavelength coverage spectra with well-understood uncertainties are needed, such as the spectra provided by the NIRSpec instrument onboard the James Webb Space Telescope. In this paper, we present the medium-resolution JWST/NIRSpec spectra of two young brown dwarfs, TWA 28 (M9.0) and TWA 27A (M9.0), and one planetary-mass object, TWA 27B (L6.0), members of the TW Hydrae Association (~10 Myr). We show the richness of the atomic lines and molecular bands present in the spectra. All objects show signs of a circumstellar disk, via near-infrared excess and/or via emission lines. We matched a set of cloudless atmospheric spectra (ATMO), and cloudy atmospheric spectra (BT-Settl) to our NIRSpec spectra, and analyzed which wavelength ranges and spectral features both models reproduce best. Both models derive consistent parameters for the three sources and predict the existence of CH4 at 3.35 microns in TWA 27B. Nonetheless, in contrast to other slightly older objects with similar spectral types, like PSO 318.5-22 and VHS 1256b, this feature is not present in the spectrum of TWA 27B. The lack of the CH4 feature might suggest that the L/T transition of very young dwarfs starts at later spectral types than for older brown dwarfs. |
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WHITE DWARFS WITH INFRARED EXCESS WITHIN 100 PC: GAIA AND THE VIRTUAL OBSERVATORY - RAQUEL MURILLO OJEDAWhite dwarfs (WDs) are one of the most common objects in the universe. They are stellar remnants of low and intermediate mass stars, such as the Sun. WDs are compact objects, with typical masses around half a solar mass and planetary sizes. They are the key to understanding the composition and evolution of exoplanetary material around intermediate mass stars in their late stages of evolution. |
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JAMES WEBB SPACE TELESCOPE UNVEILS FAINT BROWN DWARFS AND AN UNEXPECTED MOLECULAR DISCOVERY - CATARINA ALVES DE OLIVEIRAI will present the discovery of new brown dwarfs in the star-forming cluster IC 348 using the James Webb Space Telescope. Two of the brown dwarfs show the spectral signature of an unidentified hydrocarbon. The same infrared signature was detected by NASA’s Cassini mission in the atmospheres of Saturn and its moon Titan. It has also been seen in the interstellar medium, the gas between stars. This finding, the first detection of this molecule in atmospheres outside of the solar system, challenges current atmospheric models of brown dwarfs and sheds new light on their formation and composition. Based on its luminosity and evolutionary models, the faintest new member of IC 348 has an estimated mass of 3–4 Jupiter masses, making it a strong contender for the least massive free-floating brown dwarf that has been directly imaged to date. |
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INVITED TALK: EUCLID EARLY RELEASE OBSERVATIONS PROGRAMME - RENÉ LAUREIJSThe ERO programme comprises one day of Euclid observations to showcase the Euclid capabilities at an early stage of the mission. The targets were obtained from proposals submitted by groups in the Euclid Science Collaboration. The ERO dataset offers several interesting fields, enabling a variety of scientific studies. We present a description of the programme, the organization, the scope of the data processing, and the upcoming milestones. We will also mention the first scientific results. The aim is to make the ERO data public as soon as the first batch of scientific analyses are completed in February 2024. |
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GRAVITY-DRIVEN DIFFERENCES IN FLUVIAL SEDIMENT TRANSPORT ON MARS AND EARTH - LISSANE BRAATThere is abundant evidence from fluvial landforms and deposits that early Mars had rivers that actively transported sediment and shaped its surface. Preserved ancient landscapes altered by water provide valuable insights into past processes on the planet’s surface and the presence of water. To better understand these landforms, we rely on knowledge gained from systems on Earth. However, is it fair to do so when the gravity on Mars is much lower? How does gravity affect sediment transport and the landforms created by water? In this study, we isolate the effect of gravity on sediment transport by water with an analytical river model. We used 32 sediment transport formulas to compare sediment transport rates on Earth and Mars for the same conditions except gravity. The results show that larger grains are picked up by the flow on Mars and the transport rate of sediment travelling in suspension is higher, and therefore total transport as well. Because grains transported near and on the bed are less affected than the grains in suspension, the effect of gravity varies with the way of transport and hence grain size. Therefore, gravity-driven differences in sediment transport by water should produce differences in sediment sorting, morphology and stratigraphy between Earth and Mars. |
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THE BETA PIC DISK THROUGH THE EYES OF JWST - ISABEL REBOLLIDO VÁZQUEZSince the first imaging observation of the Beta Pic disk in 1984, the astronomical community has thoroughly investigated this system, finding large amounts of dust and gas, exocomets, and two planets. All of this makes it the perfect laboratory to investigate the dynamics and chemistry of the late stages of planet formation. The JWST GTO 1411 program was designed to investigate the dust component at near- and mid-infrared wavelengths, providing new insights on the dust morphology, composition, and distribution. The combination of the high sensitivity of the on board instruments with the 4QPM and Lyot coronagraphs allows for the most detailed images of the Beta Pictoris disk so far at this wavelength range, revealing new features and details in the dust distribution. In this talk, I will present JWST NIRCam and MIRI coronagraphic images, ranging from 1.82 to 23 microns. I will also summarize the analysis of prominent disk features observed for the first time, and compare it to previous ground and space based observations at multiple wavelengths. |
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BETA PIC VIDEO
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NEVER THROW AWAY OLD DATA! CYGNUS X-1'S FAST X-RAY VARIABILITY BEHAVIOUR IN THE 70S REVISITED - ERIK KUULKERSApollo 15 (and 16) did not only bring people to the Moon, but also experiments to study our neighbour and its environment. Onboard the Command and Service Modules (CSM's) were X-ray experiments, to explore the Lunar surface chemistry. These data, covering about 10% of the Lunar surface has been extensively used to study Lunar formation history and geological evolution. However, when traveling back to Earth, the experiments were also used for X-ray astronomy. These data had to be retrieved from a tape dump binary file. One of the extra-Solar sources observed is the famous black-hole X-ray binary Cygnus X-1. |
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JUPITER MASS BINARY OBJECTS - JUMBOS - SAM PEARSONIn recent observations of the Trapezium Cluster with the JWST, we have discovered and characterised a sample of 540 planetary-mass candidates with masses down to 0.6 Jupiter masses. In an unexpected twist we find that 9% of these planetary-mass objects are in wide binaries. The binary fraction of stars and brown dwarfs is well known to decrease monotonically with decreasing mass such that the binary fraction for the planetary-mass regime is expected to approach zero. The existence of substantial population of Jupiter Mass Binary Objects (JuMBOs) raises serious questions of our understanding of both star and planet formation. In this talk I will present the discovery of these JuMBOs, the 540 PMO candidates, and discuss the implications for our understanding of star and planet formation. |
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The search for circumbinary planets - Matthew Standing"Circumbinary planets, those which orbit both stars of a binary system, challenge our understanding of planet formation and orbital evolution. Planet formation around binary stars was thought to be difficult, and therefore these circumbinary planets were confined to the realm of science-fiction. Yet during its lifetime, Kepler discovered several of these objects. Since the discovery of Kepler-16b in 2011, 14 circumbinary planets have been discovered in 12 systems by transit missions. Future transit missions such as PLATO, will likely double the number transiting circumbinary planet candidates, and radial velocities would be required to confirm them. Despite the radial velocity method being the most established technique for planet detection, only recently has it become possible to detect circumbinary planets using radial velocity measurements. |
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Could the dinosaurs have observed Saturn's rings? - Nicolas AltobelliTwo main schools of thoughts are battling around the question of whether Saturn's rings are as old as the Solar System, if they formed together with Saturn, or were acquired more recently (young ring hypothesis). The Cassini mission acquired various measurements that need to be interpreted in a coherent way to find the correct answer. Radar and optical measurements constrain the amount of non-icy contamination by exogenous material accumulated over time by the rings, the current micrometeoroid infall has been characterised, as well as the total mass of the ring. Ring evolution models have been fed with those new measurements but still no consensus seems to emerge... we will present the latest status of the (sometime) heated discussions around the Age of the Rings. |
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Acceleration and transport of solar energetic particles in the inner heliosphere - Laura Rodríguez García"A new era of spacecraft probing the inner heliosphere make now possible the study of the spatial distribution of solar energetic particle (SEP) events closer to the Sun. Recent missions, such as Solar Orbiter, along with the constellations of spacecraft near 1 au facilitate the study of the radial dependence of SEP parameters, such as the peak intensity and spectrum. In this work, we use the solar energetic electrons (SEE) measured by the MESSENGER mission from 2011 to 2015 to derive statistical results about the radial dependence of some SEE parameters, which are compared with the results from Solar Orbiter near its first nominal perihelion in March 2022. The main conclusions are: (1) There is a wide variability in the radial dependence of the electron peak intensities, but on average and within uncertainties, the radial dependence can be expressed as R-3, being R the heliocentric distance to the Sun. (2) Between near 0.3 au and 1 au, the energy spectrum of the near-relativistic electrons becomes softer. |
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AT2023fhn (the Finch) and other animals - Ashley ChrimesThe extragalactic sky is full of transient phenomena, across the electromagnetic spectrum and beyond. These transients include cataclysmic events such as core-collapse supernovae, tidal disruption events, engine-powered transients (long gamma-ray bursts, super-luminous supernovae) and the detonations or mergers of stellar remnants (supernovae type Ia, short gamma-ray bursts). The advent of wide-field, deep, and high-cadence optical sky surveys has led to the discovery of rapidly evolving transients, which rise and fade on timescales of days. One example are luminous fast blue optical transients (LFBOTs), the prototypical example being AT2018cow ('the Cow'). These events are among the optically brightest transients ever observed, are accompanied by luminous X-ray and radio emission, and evolve too rapidly to be explained by standard supernova models. Since AT2018cow, only a handful more LFBOTs have been discovered, and their origins remain unknown. I present multi-wavelength observations of LFBOT AT2023fhn, 'the Finch'. In stark contrast with other LFBOTs so far, Hubble data reveals that AT2023fhn lies far away from the nearest sites of prominent star formation - challenging a massive star progenitor interpretation. I give an overview of the leading models put forward to explain LFBOTs, and evaluate them in the context of AT2023fhn. |
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Invited talk: The Flaring Sun: 2 Years of Solar Flare Observations with Solar Orbiter/STIX - Laura HayesSolar flares are intense bursts of radiation caused by the release of magnetic energy in the solar atmosphere, and they play a pivotal role in influencing space weather. As we are approaching the solar maximum, observations from Solar Orbiter's Spectrometer/Telescope for Imaging X-rays (STIX) are providing new insights into X-ray emissions from solar flare events. STIX has observed over 40,000 flares to date, since January 2021. In addition to new X-ray observations of solar flares that Solar Orbiter/STIX provides, the distinctive trajectory of Solar Orbiter, diverging from the Sun-Earth line, affords us the ability to detect flares from viewing angles markedly different from those accessible from Earth, affording us new possibilities to do stereoscopic science. In this presentation, I’ll present an introduction to X-ray flares, some new exciting results from STIX, and the importance of event lists and catalogs when doing coordinated science. |
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M DWARF STELLAR PARAMETER DETERMINATION WITH AUTOENCODERS AND DEEP TRANSFER LEARNING - PEDRO MAS BUITRAGOThe estimation of stellar parameters for M dwarfs often involves the comparison of observed spectra with different synthetic collections. In this process, a major source of uncertainty is the “synthetic gap” (difference between theoretical and observed spectra), which must be addressed beforehand to know the reliability of the parameter estimation. |
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MACHINE LEARNING SEARCH FOR GAIA DR3 ASTROMETRIC EXOPLANET ORBITS - PABLO GÓMEZThe third Gaia data release (GDR3) contains ~170,000 astrometric orbit solutions of two-body systems located within ~500 pc of the Sun. The determination of the component masses of these systems usually hinges on incorporating complementary observations in addition to the astrometry, e.g., spectroscopy and radial velocities. Several GDR3 two-body systems with exoplanet, brown-dwarf, stellar, and black-hole components have been confirmed in this way. Using ESA Datalabs, we developed an alternative machine learning approach that uses only the GDR3 orbital solutions with the aim of identifying the best candidates for exoplanets and brown-dwarf companions. Based on confirmed substellar companions in the literature, we use semi-supervised anomaly detection methods in combination with extreme gradient boosting and random forest classifiers to determine likely low-mass outliers in the population of non-single sources. We employ and study feature importance to investigate the method's plausibility and produced a list of likely candidates for further study. Our preliminary findings suggest that this new approach is a powerful complement to the traditional and “manual” identification of substellar-companion candidates in Gaia astrometric orbits. It is particularly relevant in the context of GDR4 and its expected exoplanet discovery yield. |
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HOW DOES STELLAR METALLICITY AFFECT THE ROTATION EVOLUTION OF LOW-MASS STARS? - VICTOR SEEIn recent years, there has been a growing body of evidence that the metallicity of a star affects how efficient its dynamo is. The central idea is that a star’s metallicity affects the depth of its convection zone and, therefore, the dynamo process. Metal-rich stars are expected to generate stronger magnetic fields and have stronger activity than metal-poor stars. From theoretical considerations, a star’s metallicity is also expected to affect its rotation evolution since angular momentum loss is ultimately a result of the dynamo. In this talk, I will present observational evidence that this is indeed the case. |
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DEMOCRATISING DESIGN: A PRACTICAL GUIDE TO CREATIVE PROBLEM-SOLVING FOR ALL - EMMA DE COCKER"Design appears ubiquitously—product design, web design, service design, fashion design—it is a term embraced by all. In your everyday work you may have to design a spacecraft, an interactive tool to allow your team to work together on the spacecraft or the public event where you will present your work on the spacecraft design. To give another example, I am currently working on the (re)design of the sci.esa.int pages. So what is design? Attempting to pinpoint a definitive definition to such a versatile concept would be inconclusive. What remains open to discussion, however, is the design process. While dependent on team dynamics and available resources, the mindset designers adopt when approaching challenges, and the methodologies and tools they employ to develop solutions tend to align within a general pattern. In this interactive talk, we will systematically dive into a typical design process illustrated by a simple but realistic use case. Together we will adopt the creative problem-solving mindset of designers. We will explore how gaining empathy involves not only understanding but actively involving all stakeholders in a co-creation journey. We will also demonstrate the delicate balance between applying established methodologies and following one’s own intuition and expertise. Finally, the exercise will depict the iterative and flexible nature of the design process, emphasising on the importance of systematic reflection at each stage." |
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ASTROMETRIC BINARIES WITH DARK COMPANIONS IN THE GLOBULAR CLUSTER OMEGA CENTAURI - JOHANNES SAHLMANNWe present the discovery of the first astrometric binaries in the globular cluster omega Centauri. This was made possible by analysing 13 years of regularly-scheduled Hubble Space Telescope calibration observations in the cluster core. We determined the astrometric orbits of four binaries and their Keplerian parameters suggest periods of 9-19+ years and dark companions in the mass range of 0.7-1.4 solar masses, including at least one neutron-star candidate. We discuss the potential of astrometric binary searches in globular clusters in the context of the recent Gaia Focused Product Release and future Gaia data releases. |
Presentation PDF
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DISSECTING THE MID-INFRARED HEART OF M83 WITH JWST - SVEA HERNANDEZMolecular gas is a critical ingredient in the recipe of star formation (SF) in galaxies. To fully understand the processes that govern SF, it is essential to accurately measure and characterize the distribution of H2 in star-forming environments. Since H2 is a weak rotational emitter, the molecular gas content in galaxies is typically inferred using indirect tracers such as the CO (1-0) transition. However, CO provides a partial census of the total H2 mass, particularly in regions with large quantities of CO-dark gas. A recent HST/FUV spectroscopic study suggested that S+ might be tracing large amounts of CO-dark gas in the core of M83. We have begun exploiting the unprecedented capabilities of JWST in the MIR, using the MIRI/MRS, performing a spatially-resolved study of the warm H2 gas in the heart of this face-on spiral galaxy. Our initial results indicate that ~75% of the total molecular gas mass in the core of M83 is contained in the warm H2 component, hidden to the CO tracer. The combination of the FUV capabilities of HST with the MIR sensitivity of JWST have allowed us to confirm, for the first time, S+ as a tracer of CO-dark gas in this particular metal-rich and highly active environment. To understand the fueling SF history through time, it is imperative that we test and develop tools to accurately estimate molecular gas mass directly probing the H2 reservoirs. JWST, with its unrivaled resolution and sensitivity is allowing us to do exactly that. |
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FINDING HIDDEN CONJUNCTIONS IN THE SOLAR WIND - ZOE FAESThis research aims to identify sets of in-situ measurements of the solar wind sampling the same volume of plasma at different times and locations in the heliosphere – referred to here as conjunctions. Observations of the same volume of plasma as it travels through the heliosphere allows for the characterization of the expansion of the solar wind. Specifically, this will enable us to test the current understanding of solar wind acceleration from the corona to the inner heliosphere using a greater sample of measurements than has been used in past research. |
PDF PRESENTATION
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EARLY RESULTS FROM THE WISCI PROJECT: WEBB INVESTIGATION OF SILICATES, CARBONS AND ICES - SASCHA ZEEGERSThe diffuse interstellar medium plays an essential role in regulating the energy balance of galaxies, by processing starlight and driving molecule formation. It contains the input ingredients of dense star forming clouds and, consequently, of new stars and planets. Therefore, it is important to understand the properties, formation, and evolution of this dust. However, we lack a fundamental understanding of the dust cycle in galaxies and its main elemental building blocks: H, C, O, Si, Mg, and Fe. The imprints of dust on the spectra of stars reveal information about the composition and structure of the dust grains, which in turn can explain what happens to the grains as they travel through the interstellar medium (ISM). |
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JADES: SCIENCE HIGHLIGHTS FROM THE GOODS DEEP-FIELDS - TIM RAWLEWe present an overview of recent results from the James Webb Space Telescope (JWST) Advanced Deep Extragalactic Survey (JADES), using 770 hours of guaranteed observations in the GOODS deep fields. The programme is intended as a comprehensive study of galaxy evolution from the highest redshifts to 'cosmic noon', combining 8-10-band tiered-depth NIRCam near-infrared imaging, extensive 0.6-5.3 micron NIRSpec multi-object spectroscopy targetting over 5000 faint sources, and coordinated parallel imaging in the mid-infrared using MIRI. Fourteen JADES papers have been published, with a further 25 submitted, accruing almost 800 citations. Scientific highlights include: detection of carbonaceous grains in large dust reservoirs within the first billion years of cosmic time, implying rapid production; remarkable extended Lyman-alpha emission at epochs previously expected to have highly neutral intergalactic medium; and discovery of a metal-poor galaxy at z=13.2, the current record-holder for a spectroscopically-confirmed redshift. |
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EMPOWERING RESEARCHERS WITH COMPREHENSIVE DATA ACCESS FOR THE ESA’S JUICE MISSION - EMMA VELLARDNow that JUICE is on its cruise, the first datasets of the nominal mission are expected in 2032. A need for an integrated and user-friendly data environment to support the research community and their analysis efforts was identified a few years ago. In response to this demand, we have been working on the development of an extensive data environment tailored for the JUICE mission. This environment is designed to streamline and enhance the research process by offering researchers a centralized platform containing a wealth of information. Our platform will encompass a diverse array of data, including details about the spacecraft itself, such as trajectory, instrumentation and 3D models. In addition, it will provide technical data and specifications necessary for researchers to effectively interpret the mission’s observations. It will also house valuable information on the scientific aspects of the JUICE mission, such as workshop presentations, latest published papers or relevant databases. By providing comprehensive, easily accessible information, we aim to empower researchers within the scientific community to conduct in-depth analysis and gain valuable insights into the JUICE mission’s data. |
PDF PRESENTATION
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INSPIRATION THROUGH SPACE SCIENCE: EXOPLANET THEMED EDUCATION ACTIVITIES FOR SECONDARY STUDENTS - KATE ISAAKThe topic of exoplanets is connected directly to the simple and profound question of whether we are alone in the Universe, capturing the imagination of scientists and the public alike. As such, it provides an excellent means through which to engage school students in some of the thrills of science and, critically, to teach science, technology, engineering and mathematics (STEM) core skills. |
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MACHINE LEARNING FOR SPACE SCIENCE: PROJECTS AND COMMUNITY BUILDING - SANDOR KRUKIn the past year, our Data Science team has dedicated efforts to foster a community centered on using machine learning in space science. We have actively involved young scientists at ESA in various activities on ESA Datalabs and are building knowledge and expertise through a range of projects, from natural language processing to computer vision. In this presentation, I will highlight some of our current projects, such as fine-tuning for the first time a large language model for astronomical research. I will discuss the role of infrastructures such as ESA Datalabs and discuss the scientific networks that have emerged throughout these ML initiatives, such as UniverseTBD. |
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MEAD: MEASURING EXTINCTION AND ABUNDANCES OF DUST - MARJORIE DECLEIRInterstellar dust has a significant impact on many astronomical research fields, as it absorbs and scatters a large fraction of the star light, and influences star formation and galaxy evolution at all cosmic times. Understanding the properties of the dust grains is thus crucial to derive precise knowledge of any object in the Universe that is obscured by dust, as well as to constrain the initial conditions for star and planet formation. |
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WITNESSING GALAXIES FATE SINCE THE END OF COSMIC DAWN: A STAR-FORMATION QUENCHING STORY - THIBAUD MOUTARDWell documented over ≥12 billion years (e.g. Davidson et al 2017), the continuous increase of the fraction of quiescent galaxies (where star formation has stopped) is the statistic expression of the quenching —i.e. the permanent shutdown— of star formation in galaxies. Such permanent quenching of the star formation requires, however, mechanisms able to suppress and prevent the cold-gas infall, which one may expect to vary depending on galaxies properties and environment. |
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MACHINE LEARNING TECHNIQUES APPLICATION TO ASTROMETRY IN THE GAIA MISSION - NELLY GAILLARDThe data processing task of the Gaia mission is large and complex. One of its central elements is the Astrometric Global Iterative Solution (AGIS), which produces and delivers the core astrometry data products. |
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SOLAR ORBITER AND ALMA OBSERVATIONS OF SMALL-SCALE BRIGHTENING FEATURES IN THE SOLAR ATMOSPHERE - HENRIK EKLUNDObservations at millimeter wavelengths provide accurate measurements of the plasma temperature of the heavily dynamic chromosphere, and the Atacama Large Millimeter/sub-millimeter Array (ALMA) offers ground-breaking observations in terms of sensitivity and angular resolution. In particular, synergy-observations with the Solar Orbiter are very powerful in order to probe the solar atmosphere. |
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CHARACTERIZING EXOPLANETS WITH JWST/NIRSPEC - STEPHAN BIRKMANNThe study and characterization of exoplanets and their atmospheres is one of the most rapidly evolving fields in astronomy and astrophysics in the last decade. Transit, eclipse, and phase curve observations of these celestial bodies provide an avenue for understanding planetary diversity, investigating planetary system evolution, and ultimately advancing the search for extraterrestrial life. |
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INSIGHTS FROM MODELLING HOW AEOLIAN-FLUVIAL INTERACTIONS SHAPE THE SURFACE OF TITAN - ELENI BOHACEKFluvial and aeolian surface processes have been observed on Titan. Methane precipitation feeds fluvial landforms (FLs), 50% of which exhibit rectangular drainage patterns (a much rarer pattern on Earth typically due to conjugate faulting). We developed the Titan Aeolian Fluvial Interactions model to simulate interacting fluvial and aeolian processes on Titan. This landscape evolution model is based on a coupled implementation of the Caesar-Lisflood fluvial model, and Discrete ECogeomorphic AeolianLandscape model (DECAL) dunes model. The Caesar-Lisflood fluvial model routes water over a digital elevation model and calculates erosion and deposition from fluvial and slope processes and changes elevations accordingly. The DECAL model is based on the Werner slab model of dunes, which simulates dune field development through self-organization. We show that although Titan dunes are potentially inactive, they are so much larger relative to rivers that dunes represent major topographic obstacles to rivers. Much like on Earth, we found that the nature of duneriver interactions are dependent on the relative orientations of dune crestlines and the river channel. In some cases, where the river ran semi-parallel to dune crests, the river could be funnelled upslope along interdune corridors, forming rectangular drainage patterns. In other cases when the relative orientations were not parallel, the river would pool and then breach the lower area of a dune crest and flood deeper into the dune field, delivering sediment in the process. These findings help our understanding of FL drainage patterns, distribution, and planforms, and suggest a mechanism for fluvial sediment delivery into dune fields. |
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PLASMA COMPOSITION EVOLUTION IN A SOLAR FLARE - THE EFFECT OF RECONNECTION OUTFLOW - ANDY SHU HO TOWe analyse the coronal elemental abundances of the X8.2 flare on 2017 September 10 using spatially resolved measurements from Hinode/EIS (EUV Imaging Spectrometer). Using both the Ca XIV 193.87 Å/Ar XIV 194.40 Å and Fe XVI 262.98 Å/S XIII 256.69 Å composition diagnostic ratios, we show that the flare loops exhibit a large variation of coronal abundances, with the loop tops showing enhanced coronal abundances that decrease to photospheric values toward the footpoints. We propose that this variation is caused by two physical processes. The highly fractionated abundance at the loop top is likely associated with plasma downflow from the plasma sheet, which has coronal abundances. Meanwhile, upflows caused by chromospheric evaporation/ablation fill the loop footpoints with unfractionated photospheric composition. Mixing between these sources produces the observed gradient along the loops. Our findings provide a novel explanation for the composition discrepancy observed between Sun-as-a-star and spatially resolved flare composition measurements, and have significance for understanding loop top brightenings also known as bright knots. Spatially resolved spectroscopy proves critical for revealing these complex abundance structures. |
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ABSTRACTS OF POSTER PRESENTATIONS
Spooky Action: A Brief Proof of Quantum Reality - Björn Grieger"Quantum mechanics tells us that the outcome of a measurement of a quantum system is truly random. We can exactly predict probabilities, but we cannot in general predict the outcome of an individual measurement. Moreover, the quantum system does not even have a certain state before the measurement. |
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Peering into the 30 Doradus star forming region with JWST - Katja Fahrion"The 30 Doradus region in the Large Magellanic Cloud is the most energetic star forming region in the Local Group, powered by a young massive star cluster at its centre. Given the low metallicity of the Large Magellanic Cloud, this region has often been considered as a local analogue to the sites of star formation in the high redshift Universe. |
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Automatic crater detection and classification using Faster R-CNN - Mark BentleyImpact craters are one of the most ubiquitous geological features observed on planetary bodies, and their study can yield information on their chronology and composition as well as the flux and size distribution of the impactors. A number of techniques have been used to count and characterise craters from imagery and derived properties such as surface age, however results can be inconsistent and easily biassed. The work presented here applies the Faster R-CNN algorithm to detect and classify craters. Initially trained on MRO/CTX data and ground-truth from a published crater database, the method shows promising results in producing a comprehensive database of Martian craters and their characteristics. Next steps will apply this method to the MEX/HRSC dataset, and test its applicability to other Solar System bodies. The source code is open source and published on GitHub and the final software should be installed on ESA DataLabs such that it can be easily (re-)run on the relevant datasets in the Planetary Science Archive. |
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Atmospheric variability in an exoplanet - Quentin ChangeatObservations of exoplanet atmospheres have not yet been able to infer weather patterns. This is typically due to the low signatures from past instruments and the lack of repeated observations. In a recent study, we utilize repeated observations of an ultra-hot Jupiter to study the variability of its atmosphere. Crucially, we detect significant differences between the observations. The observed variability manifests as: i) shift of the 'hotspot' offset between two phase-curves and ii) varying spectral signatures in the transits and eclipses. We combined the constraints inferred from modern atmospheric retrievals to perform high-resolution dynamics calculations tailored to simulate the atmosphere of this planet, showing that the observed variability is consistent with quasi-periodic weather patterns. |
poster view
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Optimization of the Juice Ganymede phase scheduling with genetic algorithms - MARC Costa Sitja"The Juice mission science planning is divided in two phases: the Jupiter Tour and the Ganymede phase. Both phases present different challenging approaches to strategic and detailed science planning. Whilst the Juice SOC core system is focused on the Jupiter Tour science planning, which is more similar to a multi-flyby mission like Rosetta, there is a need to address the design and strategy of the Ganymede Phase planning. The challenges of the Ganymede phase can be potentially addressed with a semi-automated planning approach involving the optimal skeleton scheduling of science observations. |
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Transit Timing Variations and Radial Velocity of the long-period exoplanetary system TOI-4409 - PATRICIO RellerLong-period exoplanets are scientifically compelling as edge cases within the known exoplanet population and are challenging to observe due to the strict scheduling requirements they impose on the observations. Here we present a combined photometric transit and Radial Velocity analysis of data on the transiting exoplanet TOI-4409 b obtained with TESS, the ASTEP Antarctica-based telescope, CHAT, OMES, FEROS, HARPS and PFS confirm the exoplanet's presence around the star and refine its TESS-derived physical properties. A significant Transit Timing Variation signal detected in the measured transits indicates the potential presence of further exoplanets in the system and will be also discussed. The data-intensive pipeline developed for this project has broader applications beyond this particular study; thus, we will also present its development status and seek feedback from users on desired features that would be most useful for their scientific use cases. |
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Detailed analysis of the landing site for ESA's PROSPECT instrument - Sarah BoazmanESA's PROSPECT instrument is one of the payloads onboard the NASA Commercial Lunar Payload service (CLPS) 22 mission and is targeting the lunar south pole. PROSPECT is designed to drill into the lunar surface up to a depth of 1 m, sampling volatiles including water ice. A landing site with a 100 m diameter ellipse has been selected, located at 31.588°E, -84.496°S. Detailed analysis of the landing site has been conducted to investigate the features present within the landing ellipse, thermal conditions, and the illumination and Earth visibility. Boulders, craters and morphological units have been mapped to characterize the landing site and to observe if there are any hazards which may affect the mission. Understanding the landing site in detail will ensure the safety of the landing site and provide context to the volatiles sampled during the mission. |
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MLOps integration on Datalabs - LEA Zuili
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Using all the pieces of the puzzle: integrating geomorphology and reflectance spectra in Mercury’s Rachmaninoff basin - Jack WrightGeological maps of Earth typically incorporate field observations of rock lithology, structure, composition, and more. In contrast, conventional planetary geological maps are often made using primarily qualitative morphostratigraphic remote sensing observations of planetary surfaces. However, it is possible to define independent quantitative spectral units of planetary surfaces, which potentially contain information about surface composition, grain size, and space weathering exposure. Here, we demonstrate a generic method to combine independently derived geomorphic and spectral units, using the Rachmaninoff basin, Mercury, as an example to create a new geostratigraphic map. From this geostratigraphic map, we can infer some compositional differences within geomorphic units, which clarifies and elaborates on the geological evolution of the region. This work is under review in Earth and Space Science. |
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Cosmology Likelihood for Observables in Euclid (CLOE): Inference and Forecasts - Guadalupe Cañas HerreraThe second version of the 'Cosmological Likelihood for Observables in Euclid' has been released. CLOE is the official pipeline to compute the theoretical predictions for Euclid's main primary probes and the likelihood, and it will be used to produce constraints on cosmological parameters once Euclid data is ready. CLOE v.2.0 has a more robust theoretical model to predict Euclid's observables, which includes the modelling of non-linearities, non-gaussian contributions to the likelihood computation, and new user-friendly features, among others. I will briefly show the main updates of the code, the current development and validation status, and preliminary forecasts. |
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A billion ways of using Gaia data - Tineke RoegiersGaia data is used in many ways by many scientists and the diversity of the research topics is dazzling, making it sometimes seem like there could be a billion ways of using Gaia data. While Gaia’s impact mapping the Milky Way might be obvious, Gaia’s data has been used closer to home as well, and further out beyond the Milky Way. A full overview of the many results Gaia data helped with is impossible to make, but a taste of the diversity of topics affected by Gaia is aimed at here. Starting from the Sun we will move out into the Solar System, further out into the Milky Way, and then beyond, all the while exploring the different ways Gaia data has been used so far and pointing to existing outreach resources to learn more about these topics. |
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Constraints on the spatial distribution of lunar crustal magnetic sources from orbital magnetic field data - Joana OliveiraSpacecraft measurements show that the crust of the Moon is heterogeneously magnetized. The sources of these magnetic anomalies are yet not fully understood, with most not being related to known geological structures or processes. Here we use an inversion methodology that relies on the assumption of unidirectional magnetization, commonly referred to as Parker's method, to elucidate the origin of the magnetic sources by constraining the location and geometry of the underlying magnetization. This method has been used previously to infer the direction of the underlying magnetization but it has not been tested as to whether it can infer the geometry of the source. The performance of the method is here assessed by conducting a variety of tests, using synthetic magnetized bodies of different geometries mimicking the main geological structures potentially magnetized within the lunar crust. Results from our tests show that this method successfully localizes and delineates the two-dimensional surface projection of subsurface three-dimensional magnetized bodies, provided their magnetization is close to unidirectional and the magnetic field data are of sufficient spatial resolution and reasonable signal-to-noise ratio. We applied this inversion method to two different lunar magnetic anomalies, the Mendel-Rydberg impact basin and the Reiner Gamma swirl. For Mendel-Rydberg, our analysis shows that the strongest magnetic sources are located within the basin's inner ring, whereas for Reiner Gamma, the strongest magnetic sources form a narrow dike-like body that emanates from the center of the Marius Hills volcanic complex. |
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Heliophysics/Space weather science information architecture and innovative solutions: progress report - Arnaud Masson"Over the past decade, radical changes have happened in the world of science and information technology. Open science is now recommended by the United Nations Educational, Scientific and Cultural Organization (UNESCO, 2021). In parallel, artificial intelligence (AI) and machine learning (ML) technologies are profoundly impacting most fields of science and space weather in particular. These key aspects did not exist when the 2015-2025 COmmittee on SPAce Research (COSPAR)/International Living With a Star (ILWS) Space weather roadmap was published by Schrijver et al. (2015). |
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CUBIQU: a CubeSat for calibration of Cosmic Microwave Background polarization ground-based telescopes - XAVIER DUPAC"CUBIQU (CubeSat for I,Q,U calibration, pronounced queue-bee-queue) is a project developed at ESA-ESAC, mostly from the work of ESA trainees and a fruitful collaboration with Universidad Politécnica de Madrid, whose aim is to build a CubeSat with two polarized antennas as payload (11 GHz and 30 GHz), in order to point at the ground to allow Cosmic Microwave Background polarization ground-based experiments, such as QUIJOTE, to calibrate their instruments on these sources. |
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Multi-band photometric observations of exoplanet transits - Ana María HerasThe transit method is key to characterising exoplanet atmospheres, but the presence of spots and faculae on the stellar disk can affect the measurements of the transit depth and therefore the interpretation of spectral features. We will present an analysis on multi-band observations of transiting exoplanets aimed to determine the wavelength dependences of transit depths and study their association with stellar activity. In particular, we have performed the data reduction and aperture photometry for a sample of exoplanets observed with ESA’s Optical Ground Station, and analysed data of the targets observed with the Transiting Exoplanet Survey Satellite (TESS) and with the MuSCAT2 instrument on the Carlos Sánchez Telescope. For each target and observation, we have derived the planet-to-star radius ratios in each wavelength band by transit fitting with a MCMC model, and then estimated the temperatures and filling factors of spots and faculae. Our results are generally consistent with the stellar variability model from Rackham et al. (2018), favouring that both spots and faculae must be accounted for to explain the observed trends. Possible deviations concern the faculae filling factors in stars with Teff > 5500 K, which are larger in our study than previously estimated. |
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A database framework to explore the surface of Jupiter's icy moons in the infrared - THOMAS Cornet"The NASA Galileo spacecraft explored the Jupiter system between 1995 and 2003. The mission was equipped with the Near-Infrared Mapping Spectrometer instrument (NIMS), able to probe the Jupiter’s atmosphere and the icy moons’ surface composition in the near-infrared with its 17 detectors operating between 0.7 to 5.2 microns [1]. The Galileo NIMS data were collected during flybys, which resulted in diverse data cubes viewing geometries and spatial resolutions. In addition, depending on the instrument mode used to collect the data, and on the instrument own health status, the NIMS infrared spectra were collected with a varying spectral sampling (between 15 and 408 wavelengths), and a varying absolute wavelength calibration over the course of the mission. Despite its heterogeneity and complexity of use, the Galileo/NIMS data set represents, to date, one of the most valuable data set to model and mapping the surface composition of Jupiter’s moons, which are the prime targets of the Europa Clipper [2] and ESA JUICE [3] missions in this decade. References |
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Clustering Properties of Intermediate Young Stellar Objects - héctor cánovas"The intermediate-mass (4-10 M_sun) young stellar objects (YSO) are a suitable population to understanding the different formation mechanisms that apply to low- and high- mass stars. In addition, the complex structures observed in their surrounding accretion discs, and their derived disc masses, suggest that giant planet formation happens at a higher rate in this mass regime. Until recently, the study of the general properties of intermediate-mass YSO was hampered by the low-number statistics and the lack of a well-defined, homogeneous sample. This situation has changed thanks to the vast amount of data provided by the Gaia mission and the use of machine learning techniques. In this talk I will present a novel analysis of the association (clustering) properties of these objects when observed at optical wavelengths. Our results suggest that the intermediate-mass YSO form in less clustered environments when compared to their low- and high- mass counterparts. We also find that intermediate- and high- mass YSOs become less clustered with decreasing disc emission and accretion rate." |
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10 years of SALT optical spectroscopic monitoring of Be X-ray Binaries - PETER KretschmarHigh-mass X-ray binaries (HMXB) are one of the most numerous classes of interacting binary. They offer the chance to observe extreme physics in high magnetic field and strong gravitational environments, as well as massive stellar and binary evolution, which may ultimately lead to double-degenerate systems. A large fraction of HMXBs comprise a neutron star and a Be star, which is characterised by an equatorial 'decretion' disc from which the neutron star periodically accretes. Studying the interaction between the Be star, disc and compact object is central to our understanding of the formation and evolution of these systems. Whilst X-ray all-sky monitors have built up excellent long-term light curves of the accretion events in HMXBs, our optical coverage, particularly spectroscopic, has been much sparser. We present here details of our 10 year Southern African Large Telescope (SALT) optical spectroscopic monitoring programme of the Be counterparts of Galactic and Magellanic HMXBs. The long baseline of these observations, along with good cadence, resolution & S/N make this one of the best available optical spectroscopic datasets in the field, and a valuable resource for observers and theoreticians alike. We will discuss some of the science that our team is doing with this data, and our plans to release the full catalogue to the community.
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X-ray lighthouses observed through a relativistic looking glass – what we can learn from the pulse profiles of accreting X-ray pulsars - PETER Kretschmar"Neutron stars harbor the strongest magnetic fields known in the universe. These fields dominate the physical processes and lead to the existence of pulsars. In accreting X-ray pulsars, matter captured from a companion star is captured by the field far away from the neutron star and funneled to the magnetic poles leading to strong X-ray radiation being emitted from these poles. As the neutron star rotates, this emission will be pulsating with the rotation period. The emission patterns are intrinsically complex. In addition, neutron stars are so compact that spacetime is markedly curved close to the surface, meaning that photons may go quite complex paths to reach an observer. The resulting energy-dependent pulsating emission – the pulse profile – is usually very specific for an individual source, kind of a ‘fingerprint’. Studying these profiles can, in principle, yield a lot of diagnostic information about the physics of accretion, X-ray emission, or the neutron star’s mass-radius relation. The presentation will give a brief overview of X-ray observations, as well as the theoretical efforts to understand the observed emission, highlighting challenges and possible ways forward. The collaboration behind this work was supported by a Science Exchange Programme (Disentangling Pulse Profiles). |
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3D view of emission line galaxies - Nimisha Kumari
Carbon spectral features are ubiquitous in the ultraviolet (UV) and far-infrared (FIR) spectra of galaxies in the epoch of reionization (EoR). We probe the ionized carbon content of a blue compact dwarf galaxy Pox 186 using the UV, optical, mid-infrared and FIR data taken with telescopes in space (Hubble, Spitzer, Herschel) and on the ground (Gemini). This local (z~0.0040705) galaxy is likely an analogue of EoR galaxies, as revealed by its extreme FIR emission line ratio, [OIII] 88/[CII] 157 (>10). The UV spectra reveal extreme CIII] 1907, 1909 emission with the strongest equivalent width (EW) = 35.85 ± 0.73 Ådetected so far in the local (z~0) Universe, a relatively strong CIV 1548, 1550 emission with EW = 7.95 ±0.45Å, but no He II 1640 detection. Several scenarios are explored to explain the high EW of carbon lines, including high effective temperature, high carbon-to-oxygen ratio, slope and upper mass of top-heavy initial mass function, hard ionizing radiation and in-homogeneous dust distribution. Both CIII] and CIV line profiles are broadened with respect to the OIII] 1660 emission line. Each emission line of CIV 1548, 1550 shows the most distinct double-peak structure ever detected, which we model via two scenarios, firstly a double-peaked profile that might emerge from resonant scattering and secondly, a single nebular emission line along with a weaker interstellar absorption. The study demonstrates that galaxies with extreme FIR emission line ratio may also show extreme UV properties, hence paving a promising avenue of using FIR+UV in the local (via HST+Herschel/SOFIA) and distant (via JWST+ALMA) Universe for unveiling the mysteries of the EoR. |
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Can crustal magnetic field signals be detected during the BepiColombo flybys? - Joana Oliveira"While previous satellite missions were able to investigate the global magnetic field of Mercury’s northern magnetosphere, only little is known about the magnetic fields of Mercury's crust. Only a small latitudinal band of 40 degrees in Mercury's northern hemisphere was characterized during MESSENGER's low-altitude campaign. The ESA/JAXA BepiColombo mission is currently in the cruise phase towards Mercury. During this phase, BepiColombo will perform 6 flybys of Mercury with closest approach altitudes as low as 200 km, giving the limited opportunity to explore magnetic fields that can potentially be superimposed by crustal magnetic fields. In particular, large craters are expected to be associated with magnetized material producing crustal signals as previously seen by MESSENGER spacecraft. However, the total planetary magnetic field strength observed at these low altitudes is still about one order of magnitude larger than previously observed crustal fields, leading to the challenge of disentangling the magnetic field observations into external, core and crustal fields. |
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The SunPy Project: An Interoperable Ecosystem for Solar Data Analysis - Laura HayesThe SunPy Project facilitates and promotes the use and development of community-led, free, and open-source Python software for solar physics data analysis. The project includes both the core library and an affiliated package ecosystem, and through these provides critical science enabling functionality such as data search and download, data structures for remote sensing and in-situ observations, solar-specific coordinate systems, and a variety of image processing techniques. As such, a wide variety of science analysis workflows and instrument data pipelines depend on the SunPy ecosystem. Here, I will provide a short retrospective on the development of the SunPy Project and give an update on the current state of the project, including the latest release of the sunpy core library and the status of the affiliated package ecosystem. Further, I will discuss the broad goals of the SunPy Project moving forward. These include community outreach efforts, the relation of the SunPy Project to other Python-based heliophysics packages, support for current and future solar missions, and support for scalable computing in heliophysics. |
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The ESA-powered Antarctic telescope - MAXIMILIAN GüntherThe ESA-powered Antarctic telescope, ASTEP, realised via a Science Faculty grant, is a unique opportunity to get 'space-like' conditions in one of the most extreme environments on Earth. The unique conditions, such as 24h long nights, enabled us to observe a wealth of exoplanet transits not visible from anywhere else. With it, our joint ESA-ASTEP team has delivered a successful technology demonstration, characterised dozens of exoplanets (including ones with periods of around 100 days), and even monitored the impact of DART on Dimorphos. This proves the remarkable synergy of space and ground for exoplanet and small-body science, with lots more to come. The ESA-ASTEP project enables any Science Faculty member to propose for time for any achievable and impactful science goal. Find out more and make use of this unique opportunity! |
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The Gaia DR3 Catalogue of Galactic AGB stars - PEDRO CARCÍA-lARIOWe present the main results of this multi-year Faculty funded project intended to build a 'Gaia DR3 Galactic Catalogue of Asymptotic Giant Branch (AGB) stars' and characterise their photometric colours, variability properties and absolute luminosities as measured by Gaia, in connection with their overall spectral energy distribution and chemical composition, derived from photometric and spectroscopic information, respectively, retrieved at other wavelengths from other resources using Virtual Observatory tools. Due to the lack of accurate distances to galactic AGB stars, studies have been made in the past mainly using the Magellanic Cloud population of AGB stars. Now, thanks to the astrometric information provided by the Gaia mission, we are able to explore the galactic AGB population on a larger scale, taking advantage of the distances derived from Gaia data. |
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Artificial neural network based spatio-temporal deconvolver for refinement of solar images - Henrik Eklund"The point spread function generally constitutes the resolution element in astronomical observations, which degrades the intensity contrasts and leaves structures at smaller angular resolution unresolved. The solar atmosphere is highly dynamic and the intensity of the radiation is strongly connected to small-scale dynamics, which can be used to improve the analysis of solar observations. An artificial deep neural network is trained to recognise dynamic patterns of features in both the spatial and temporal domains, to perform estimations on the intensity contrast degradation. The same technique is shown to also be applicable on for instance estimating the height of formation of the radiation. The neural network is trained on radiative transfer calculations from state-of-the-art simulations of the solar atmosphere and is applied to perform estimations on millimeter wavelength observations with the Atacama Large Millimeter/sub-millimeter Array to acquire more precise intensities. The deep neural network can to large accuracy increase the contrasts of the observations and distinguish whether a small-scale brightening event or feature is well resolved and to what degree its intensity is over or underestimated. Using this as a diagnostics tool for small-scale dynamic features in solar observations, enables to study their potential contribution to the heating of the upper layers of the solar atmosphere, production of solar wind and solar flares." |
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The Search for Magnetar Companions - Ashley ChrimesMagnetars are extremely magnetic neutron stars, with field strengths of 10 billion Tesla or more. They are of wide astrophysical interest, not only in their own right as tests of physics in extreme environments, but also due to their suspected involvement in transients ranging from fast radio bursts to super-luminous supernovae. However, their formation channels remain uncertain. Are their extreme magnetic fields generated during the core-collapse of a massive star? Or is it pre-existing and inherited from the progenitor? A novel way to investigate their origins to search for companion stars. If they are drawn from the same parent population as pulsars, since most massive stars are in binaries, a small fraction should have a bound companion star, while ~50% should have an unbound, former companion, unbound by the supernova that produced the neutron star. The binary fraction, and properties of any companions, can tell us much about magnetar formation. I present several recent and ongoing projects, with the aim of finding and characterizing magnetar companions. |
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Towards panchromatic light-curve retrievals - Quentin ChangeatConventional atmospheric retrieval techniques for transiting exoplanets extract physical properties, such as chemical abundances, thermal structures and cloud properties, from reduced spectra. Reduced spectra, however, are a form of 'summary statistics' of the observations, which by definition do not encode all the available information. Here, we present a new extraction method that acts on the panchromatic light-curves (i.e., closer to the data), enabling us to extract more informations from transit, eclipse, and phase-curve observations of exoplanets. This new method is implemented in ExPLOR, a new class of atmospheric retrievals that adds time new axis in exoplanet observations. |
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MWWM - Mars Wind and Wave Mapping: Research Protect Status - ALEJANDRO CARDESÍN"We present here the summary status of a faculty research project on the atmosphere of Mars in collaboration with the Institute of Astrophysics and Space Sciences in Lisbon. |
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Volumetric Calculation of Quantization Error in 3-D Vision Systems - Eleni BohacekWe investigates how the inherent quantization of camera sensors introduces uncertainty in the calculated position of an observed feature during 3-D mapping. The error of the object position is typically thought of as a confidence interval in the x, y, and z directions, ε_x, ε_y, ε_z. The magnitude of the three components can be very different and this dimensionality information is lost when only considering ε, as this effectively this models the uncertainty volume as a sphere. It is typically assumed that pixels and scene features are points, however, a pixel is a two-dimensional area that maps onto multiple points in the scene. This uncertainty region is a bound for quantization error in the calculated point positions. Earlier studies calculated the volume of two intersecting pixel views, approximated as a cuboid, by projecting pyramids and cones from the pixels into the scene. In this paper, we reverse this approach by generating an array of scene points and calculating which scene points are detected by which pixel in each camera. This enables us to map the uncertainty regions for every pixel correspondence for a given camera system in one calculation, without approximating the complex shapes. The dependence of the volumes of the uncertainty regions on camera baseline length, focal length, pixel size, and distance to object, shows that earlier studies overestimated the quantization error by at least a factor of two. For static camera systems the method can also be used to determine volumetric scene geometry without the need to calculate disparity maps. |
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Determining the Influence of the IMF and Planetary Magnetic Field Models on Mercury's Magnetosphere along Spacecraft Trajectories of MESSENGER, BepiColombo and MPO - Willi Exner"Determining the internal planetary magnetic field moments of planet Mercury is one of the major goals of the late MESSENGER and upcoming BepiColombo mission. Due to the northerly biased spacecraft coverage of the MESSENGER mission, the available planetary magnetic field models (PMFMs) are well equipped to describe the northern magnetosphere. However, these PMFMs differ significantly in their predicted magnetic field strengths in the southern magnetosphere due to the subtractive behaviour of the higher orders of the multipole moments. Hence, comparing magnetic field observations outside of the previously covered regions, i.e., trajectories passing through the southern magnetosphere, with global 3D modeling of the magnetosphere will be an important indicator to determine the more applicaple PMFM. Such trajectories are the MESSENGER M1 and M2 flybys, BepiColombo's MSB1 and MSB2 swingbys and the Mercury Planetary Orbiter (MPO) after its orbit insertion. To estimate the influence of the upstream interplanetary magnetic field (IMF) on the local field topology, we increase our parameter space with the most prevalent IMF directions at Mercury, obtained from the Parker spiral. |
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Ice Impacts Experiment - NICOLAS ALTOBELLI"We report on the status of the Faculty Funded Ice Impact Experiment performed in collaboration with the University of Stuttgart. The main goal of this activity is to understand how micro-meteoroids impacts alter the icy moons surface and contribute to the formation of volatiles injected into the moon’s exospheres, by performing ice targets impact experiments. |
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Quasi-periodic eruptions from super-massive black holes - RICHARD Saxton"The discovery of giant quasi-periodic flares in a small number of active and non-active galactic nuclei has caused great excitement in the community and sparked off a cottage industry searching for more examples in archival data. Despite intensive efforts, less than ten examples have so far been uncovered. Of the many theoretical explanations that have been proposed, the leading idea is that flares are generated when a star or compact object crashes through a disk of material rotating about the central black hole. If this proves to be correct then the irregularity of the flares would be caused by the precession of both the disk and the secondary impactor. As these processes occur well within the range of general relativistic effects, careful observations have the potential to measure the mass and spin of the black hole. |
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Exploration of exoplanet atmospheres with machine learning - ANTONIA Vojtejová"In the current era of exoplanetary research, we are witnessing an unprecedented wave in acquiring exoplanet-related data. The field is gradually transitioning into the domain of big data science. Consequently, there is a growing imperative to explore novel data analysis techniques, particularly those involving machine learning. |
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Euclid: from space telescope to dark matter surveyor - ROLAND VavrekThis talk addresses the key performances that enables Euclid not only to observe the optical and IR sky, but required to survey dark matter in the coming period of 6 years routine operations. We present the early mission status of Euclid with focus on optical, guiding, and thermal performances as well as the science program currently being executed under constrained operating conditions. |
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The versatility of XMM-Newton investigating the extreme accretion regimes of Be/X-ray binaries - ALICIA Rouco EscorialIn 2023, two Be/X-ray transients, LS V +44 17 and 4U 0115+63, showed their brightest giant outbursts ever observed. Two systems showing their brightest outburst in the same year is extremely unusual, and gives us the unique opportunity to monitor and characterise the physical scenarios across the different luminosity states of the sources. We have monitored the LS V +44 17 and 4U 0115+63 outburst behaviours of the binary systems with Swift/XRT, and obtained unique XMM-Newton observations at high- and low X-ray luminosities. In this talk, I present the preliminary results of our X-ray monitoring and XMM-Newton observations of LS V +44 17 and 4U 0115+63 during and after their giant outbursts. We also compare our new datasets to the archival XMM-Newton observations that were obtained for these sources. We strive to obtain a better understanding of how accretion works at different luminosity states and, most importantly, to unveil the conditions that are in play to make the LS V +44 17 and 4U 0115+63 low X-ray luminosity state behaviours so different from each other. |
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Remote Sensing of Coastal Upwelling. An astronomer observing the Earth - ALCIONE Mora"I will present my Artificial Intelligence Master thesis on coastal upwelling characterized using remote sensing Copernicus data. Apart from its scientific merit, I have found notable parallelisms between Astronomy and Earth Observation, including data formats, science archives, Python libraries and code-to-the-data platforms. I believe cross-fertilization between such closely related fields could be very beneficial. |
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ESA Brainstorming on Astrobiology - mAXIMILIAN GüntherThe ESA Brainstorming on Astrobiology, realised via a Science Faculty grant, was a successful pilot for a series of open, informal, and multidisciplinary workshops on astrobiology. The experimental concept was built on a hybrid between a classical top-down conference and modern bottom-up 'unconference' approaches, featuring expert discussions, peer-to-peer learning, and public talks. The event united nearly 60 scientists from ESA and the community - including exoplanets, planetary science, and solar/stellar physics - for a full week at ESTEC from 16 to 20 October 2023. Our ambitious goals were fostering transparency and collaboration, connecting scientists from ESA and the community with the Zeitgeist of the rapidly growing astrobiology field, brainstorming outside-of-the-box ideas for interdisciplinary approaches, and disseminating our findings via public lectures and a scientific publication. Our vision was to form a diverse group in terms of research expertise, gender, seniority, background, institute country, and professional functionality. After very positive feedback from the community, we anticipate to grow the event in an impactful and sustainable way, driven by community-led working groups (axes) and future events in the series. |
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Identifying M dwarf stars towards the Galactic bulge using VVV, Gaia DR3, and Virtual Observatory tools - PATRICIA CRUZM dwarf stars are the dominant stellar population in the Milky Way, and they are important for a wide variety of astrophysical topics, for instance, as prime targets in the search for life outside our Solar System. The Gaia mission has delivered a superb collection of data, nevertheless, ground-based photometric surveys are still needed to study red, faint objects. In this work, we have identified and characterised M dwarfs in the direction of the Galactic bulge by using photometric data and with the help of Virtual Observatory tools. The studied region is the b294 tile from Vista Variables in the Via Lactea (VVV) survey, which is a deep near-infrared survey towards Galactic Southern plane. We used parallax measurements and proper motions from Gaia Data Release 3, in addition to different colour cuts based on VISTA filters, to identify 7925 M dwarf stars in V tile b294. We performed a spectral energy distribution fitting to derive the effective temperature for all objects using broad-band photometry available at Virtual Observatory archives, which varies from 2800 to 3900 K. As a secondary outcome, we also searched for periodic signals in WV light curves with up to 300 epochs. Our sample has increased significantly the number of known M dwarfs in the direction of the Galactic bulge and within 500 pc, showing the importance of ground-based photometric surveys in the near-infrared and the need for future space-based IR surveys. |
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Machine learning techniques applied to cluster galaxies - Ricardo Pérez MartínezThe production of large catalogs of galaxies belonging to clusters with high levels of purity and completeness is key for several open questions in astronomy, from cosmology to galaxy evolution. The optimal way of assigning membership is based on spectroscopic redshifts, but they are difficult to obtain in terms of exposure time and data quality. Other means, like color selection, isophotal profiles or photometric redshifts, alone or combined, imply selection biases and uncertainties that often result in conflicting conclusions when using different methodologies and datasets. We present here a new methodology to determine membership of galaxies to clusters based on convolutional neural networks using HST and XMM Newton images together with ancillary data such as projected surface densities and clustercentric distances. We have applied this method to 16 clusters from the Hubble Frontiers Field Survey, significantly extending the member catalogue. We will also discuss the main difficulties and caveats of this approach and the plans for improving the tool in the near future. |
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Enhancing object-type based searches in ESA's astronomical archives extending ESASky's AI capabilities with Large Language Models and Retrieval Augmented Generation - MARCOS Lopez-Caniego"The realm of Large Language Models (LLMs) stands as one of the most thrilling frontiers in today's Artificial Intelligence (AI) exploration. Since ChatGPT emerged in late 2022, these models have ignited a profound transformation across various industries, serving as the bedrock of groundbreaking advancements in many fields including astronomy. |
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5000 eyes on feedback from active galactic nuclei - Chiara CircostaAccreting supermassive black holes (aka active galactic nuclei, AGN) inject a significant amount of energy into the surrounding interstellar medium and launch gaseous winds. They are therefore able to potentially suppress or inhibit future star formation in their host galaxies. This process, the so-called AGN feedback, is thought to be key in shaping the life-cycle of galaxies. AGN feedback is a necessary ingredient of theoretical models of galaxy evolution, although proving its role observationally remains a challenge. The Dark Energy Spectroscopic Instrument (DESI) survey is collecting 5000 spectra at a time over a large area of the sky, therefore providing an unprecedented sample of thousands of targets to investigate diagnostics of ionized winds such as [OIII] up to redshift ~1 (when the Universe was about 6 Gyr old). In this talk I will present recent work aimed at characterizing ionized winds through multi-component line fitting using DESI data, which offer an ideal avenue to build a statistical understanding of AGN feedback across the galaxy population. |
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Solar Orbiter: Science highlights and mission status - DANIEL MüllerThis contribution will summarise recent science highlights of the Solar Orbiter mission. Solar Orbiter started its nominal mission phase in December 2021, with perihelia around 0.29 au occurring every six months. The ten instruments onboard provide high-resolution imaging and spectroscopy of the Sun and corona, as well as detailed in-situ measurements of the surrounding heliosphere. Together, these observations enable us to comprehensively study the Sun in unprecedented detail and determine the linkage between observed solar wind streams and their source regions on the Sun. Solar Orbiter’s science return is significantly enhanced by coordinated observations with other space missions, including Parker Solar Probe, SDO, SOHO, STEREO, Hinode and IRIS, as well as new ground-based telescopes like DKIST. Starting in 2025, Solar Orbiter’s highly elliptical orbit will get progressively more inclined to the ecliptic plane, which will enable the first detailed observations of the Sun’s unexplored polar regions. |
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The D/H ratio in the nearby ISM and the Big Bang! - PAULE Sonnentrucker"The Big Bang theory of Nucleosynthesis (BBN) predicts that deuterium (D) is mostly produced in the first minutes after the Big Bang and gets subsequently destroyed in stars via a process called astration. The deuterium abundance (D/H) in the ISM is therefore expected to decrease with time. Its measurements serve to constrain the chemical evolution models of galaxies and allow to probe the early universe. Over the past few decades, a number of FUV space missions measured the D/H ratio toward galactic and extra-galactic sight lines to test both the BBN and our understanding of the Milky Way chemical evolution. The resulting ensemble of D/H spectroscopic measurements showed an approximately constant D/H ratio within the Local Bubble (LB) but significant variability beyond it. This was somewhat unexpected and causes tension between the BBN and models of galactic evolution. A number of physical processes have been put forward to account for these variations, from local infall of pristine or D-rich gas onto the galactic disk to depletion of D onto dust grain. To-date the amplitude of these variations remains puzzling and is somewhat challenged because of large uncertainties attached to the H I column density (N(H I) determinations outside the LB. |
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COMPANIONS FOR GAIA LOW-MASS OBJECTS - Maricruz Galvez OrtizWe adopted a sample of 1843 sources listed as astrometric binary systems, composed of possibly late-type components, published by the Gaia Collaboration et al. (2022). We used tools from the Virtual Observatory (VO) in combination with data from Gaia DR3 and other archive data to search for the signature of potential companions as an infrared excess in the sources’ spectral energy distributions. We have identified 7 candidates that may have a lower-temperature/mass companion. We have started a spectroscopic follow up to confirm the low-mass nature of the companion candidates. We will present the project and discuss the results obtained so far. |
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Interstellar Harmony: Unraveling the Symbiotic Dance of Meteor and 67P Dust Particles - JULIA Marin-Yaseli de la parraThis research delves into the intriguing world of dust size distribution within comet 67P/Churyumov-Gerasimenko and its symbiotic relationship with meteors. Comets are time capsules, capturing the essence of the solar system's infancy, and thereby providing a window into the primordial composition and developmental processes of its constituents. Our study is anchored in the analysis of the dust particles ejected from comet 67P, with a goal to decode the size distribution mechanics and draw parallels to meteor data. |
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From the cluster to the clouds – a journey from the massive OB stars to the youngest, disk-bearing objects of the young star cluster NGC 602 - Peter Zeidler"We present a multi-instrument (HST, JWST, VLT/MUSE), multi-wavelength (FUV to mid-IR) study of NGC 602, the Small Magellanic Cloud low-metallicity counterpart of Trumpler 14. |
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Where Environments Collide: Aeolian-Fluvial Interactions on Ancient Mars - Rickbir Bahia"Mars is carved by thousands of valley networks, which are evidence of ancient flowing rivers ~3.7 Byr ago. These rivers are thought to have been primarily fueled by rainfall or snowfall, leading researchers to suggest that during the period in which rivers were primarily active (the Late Noachian to Early Hesperian period ~3.8-3.6 Byr ago) Mars was 'warm and wet'. However, recent analysis of Martian valley network branching angles and lake deposits has revealed that the climate was similar in aridity to terrestrial deserts. |
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JWST and synergies: comprehensive taxonomy of planetary systems - EVA VERDUGOThis research consists of scientifically exploiting of JWST data of exoplanets, providing a comprehensive and coherent knowledge of planetary systems as a unit, putting together the data of the planets and host stars. |
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Magnetic field and orbital period of NGC 5907 ULX-1 - Felix Meeker-Fuerst"NGC 5907 ULX-1 is the brightest known ultra-luminous X-ray pulsar (ULXP), with luminosities exceeding 1e41 erg/s during the high state. However, it shows large variability, and was in an off state between 2017-2020. Based on precise measurements with XMM-Newton of the pulse period just before and immediately after the off state, we show that the pulsar slowed down in this period. This is the first time a strong spin-down is seen during a low flux state in a ULXP. We interpret this as a spin-down due to the propeller effect, where accretion is magnetically inhibited, and the large magnetosphere slows the pulsar down. Based on this interpretation, the dipole magnetic field of the neutron star is larger than 1e13G. At the same time the precise pulse period measurements allow us to infer the orbital period of the system, which is around 5.6d. Our results therefore shine a light on the intrinsic properties of the system, showing that a small orbit and very strong magnetic field seems to be necessary to explain the extreme luminosity." |
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Measuring the extinction in the massive cluster NGC 3603 with NIRSpec - GUIDO De MarchiUsing NIRSpec onboard JWST we have studied the spectra of a large number of sources in the young massive cluster NGC 3603 in the Milky Way. The spectra are used not only to study the physical properties of the stars, but also those of the interstellar medium that surrounds them. In particular, we have determined a new extinction law towards this giant HII region, sampling the inner ~50' from the cluster centre. We have done this by exploiting the strong Brackett recombination lines present in over 600 nebular spectra throughout the region. The recombination line intensity ratios were used to determine independent values of the selective extinction E(B-V). A wide range of extinction curves were tested, and the finally adopted curve is the one that produced the least amount of scatter in E(B-V) for each spectrum. The resulting extinction characteristics in NGC 3603 are similar to other galactic HII regions like Orion, as well as extragalactic starburst regions such 30 Doradus, in that we find a high value of R(V) = 5.2 +/- 0.8. This corresponds to a reddening of E(B-V)=0.7 +/- 0.2, which is about half the value published in previous works. The large value of R(V) underlines the existence of an important grey component to the extinction, due to a larger fraction of big grains in the mix, compared to the diffuse interstellar medium. Furthermore, we find that the extinction curve, i.e. R(V), varies across the field, with higher values of R(V) corresponding to regions with brighter dust emission. The likely cause of the larger R(V) values and larger fraction of big grains is localized fresh injection of new big grains by supernova explosions. |
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