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Announcements of Upcoming Meetings
Notice that this list is not meant to be all-inclusive, but concentrates
on meetings of potential interest to X-ray, gamma-ray, cosmic-ray, and
gravitational astrophysicists. The HEASARC also maintains a list of upcoming
high-energy astrophysics summer schools, a list of on-line proceedings
of high-energy astrophysics meetings, as well as a list of on-line proceedings
of high-energy astrophysics summer schools.
Updates, corrections, and/or suggestions about meetings should be sent to
the
HEASARC Help Desk.
Other Sources of Information on Upcoming
Meetings
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List of International Astronomy meetings maintained by the Canadian
Astronomy Data Center
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Jet Propulsion Laboratory (JPL) Space Calendar
2024 Mar 24 - 29:
Current Challenges in the Physics of White Dwarf Stars
2024 Apr 7 - 11:
The 21st Divisional Meeting of HEAD
2024 Apr 15 - 19:
Recipes to Regulate Star Formation at All Scales: From the Nearby Universe to the First Galaxies
2024 Apr 23 - 26:
Anticipating the Rising Tide of Tidal Disruption Events: Theory and Observations
2024 Apr 22 - May 17:
"Some like it hot!" A Journey from the Hot IGM to the Multiphase CGM
2024 Apr 22 - May 17:
Towards a Physical Understanding of Tidal Disruption Events
2024 Apr 29 - May 2:
Science with the Hubble and James Webb Space Telescopes
VII: Stars, Gas & Dust in the Universe
2024 Apr 29 - May 3:
Massive Black Holes in the First Billion Years
2024 Apr 29 - May 3:
Extreme Galaxies in their Extreme Environments at Extremely
Early Epochs
2024 Apr 29 - May 3:
Gravitational waves: a new ear on the chemistry of galaxies
2024 May 20 - 23:
Rare Gems in Big Data
2024 May 26 - Jun 16:
Cosmic Ray Feedback in Galaxies and Galaxy Clusters
2024 Jun 5 - 7:
The X-ray Mysteries of Neutron Stars and White Dwarfs
2024 Jun 9 - 15:
Supernova Remnants III: An Odyssey in Space after Stellar Death
2024 Jun 10 - 14:
360° approach to Common Envelope Evolution: From
Binary Progenitors to Remnants
2024 Jun 12 - 13:
Dawn VII
2024 Jun 24 - 28:
Future Innovations in Gamma Rays Science
Analysis Group (FIG-SAG) Meeting
2024 Jul 8 - 12:
AGN across Continents
2024 Jul 8 - 12:
EUROWD24: 23rd European Workshop on White Dwarfs
2024 Jul 13 - 21:
COSPAR E1.13: Observations and Prospects for X-ray Polarimetry
2024 Jul 15 - 19:
The Origin and Evolution of Supermassive Black Holes
2024 Aug 4 - 25:
Multi-messenger Transients from Binary Mergers & Stellar Explosions
2024 Aug 13 - 15:
IAU Symposium 392 — Neutral Hydrogen in and around
Galaxies in the SKA Era
2024 Aug 19 - 30:
I-HOW/COSPAR Workshop: A New Era of High-Resolution X-Ray Spectroscopy
2024 Sep 2 - 6:
TDEs and NTs in Crete 2024
2024 Sep 2 - 6:
AGN Feedback and Star Formation Across Cosmic Scales and Time
2024 Sep 9 - 13:
Binary and Multiple Stars in the Era of Big Sky Surveys
2024 Sep 15 - 20:
First Results from the SRG/eROSITA All-Sky Survey: From Stars to Cosmology
High Energy Astrophysics
meetings
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Current Challenges in the Physics of White Dwarf Stars
- Meeting Dates: 2024 Mar 25 - 29
- Meeting Location: Santa Fe, NM, USA
This conference brings together the communities of white dwarf modelers and dense matter physicists to foster new collaborations and identify astrophysical problems that can be addressed with advanced physical theories, simulations, and experiments.
SCIENTIFIC MOTIVATION
White dwarf stars represent the end stage of the life of the vast majority of stars, including our Sun. These common stars are the sites of exotic physical conditions that are not encountered in other stars. Matter in such extreme conditions is beginning to be probed experimentally. Historically, theoretical work in dense plasma physics has found fertile applications in white dwarf models. The astrophysics of white dwarfs is a mature field, yet modern observations challenge many aspects of the models in regimes ranging from the relatively low-density gas at the observable surface through the deeper regions of partial ionization to the dense core. In many instances, modern physical theories, simulation methods and experimental techniques can be fruitfully applied to drive the field to a new level of understanding and resolve outstanding astrophysical problems.
Topics to be covered include:
- Astrophysics of white dwarf stars
- Physical processes in white dwarf stars
- Radiative opacities in dense gases and plasmas
- Equation of state and transport coefficients
- Magnetic fields
- Crystallization and phase diagrams
- Models and simulations of warm dense plasmas
- Experimental measurements
WORKSHOP FORMAT
The workshop is intended to foster exchanges between different communities with the goal of identifying problems ripe for investigation. The program will consist of a limited number of invited overview talks on key topics in white dwarf astrophysics, matched with presentations of the relevant current physics methods. Scheduled group discussions will explore selected topics in greater details. Contributed posters will be up during the entire workshop and there will be ample time for discussions. We encourage the participation of young researchers. A limited number of travel grants will be available to assist students and postdocs.
WORKSHOP ORGANIZERS
Didier Saumon (Los Alamos National Laboratory, USA, co-chair);
Jerome Daligault (Los Alamos National Laboratory, USA, co-chair);
Simon Blouin (U. Victoria, Canada);
Stephanie Hansen (Sandia National Laboratories, USA);
Amy Lazicki (Lawrence Livermore National Laboratory, USA);
Nicole Reindl (Zentrum für Astronomie der Universität Heidelberg,
Germany)
For additional questions, please see the conference
website.
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The 21th Divisional Meeting of HEAD
- Meeting Dates: 2024 Apr 7-11
- Meeting Location: Horseshoe Bay Resort, Texas, USA
- Abstract and Registration Deadlines: TBA
Save the date! Note: The Horseshoe Bay Resort is near the centerline
of the 2024 Total Solar Eclipse on Monday April 8, 2024.
Check the website for more information.
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Recipes to Regulate Star Formation at All Scales: From the Nearby Universe to the First Galaxies
- Meeting Dates: 2024 Apr 15 - 19
- Meeting Location: Baltimore, MD, USA
- Abstract Deadline: 2024 Jan 19
- Registration Deadline: 2024 Mar 15
Star formation is a fundamental process defining galaxies, impacting
virtually every facet of astronomy. However, precise mechanisms
governing star formation activity, including but not limited to
stellar and AGN feedback, and its evolution with redshift remain a
subject of intense debate. With recent observations from
cutting-edge (ground-based and space telescopes) observatories
(e.g., JWST, HST, ALMA, VLT, Keck) unprecedented data have become
available to study star formation at all redshifts. While
state-of-the-art simulations are aiding us in the construction of
increasingly more realistic models of galaxy formation and evolution
to predict and interpret these observables, high redshift
observations cannot provide the level of cloud-scale physical detail
that the nearby galaxies have to offer. The 2024 STScl Spring
Symposium aims to gather the low, intermediate and high-redshift
communities to discuss the factors that affect star formation in
galaxies, from parsec to kiloparsec and megaparsec scales. We will
highlight new observational, theoretical and computational results
from the nearby Universe to Cosmic Noon (z~2-3) and up to the first
galaxies in the Epoch of Reionization (z>6) on the following four
core topics:
- Conditions for star formation in galaxies and the role of stellar feedback;
- The relationship between star formation and chemical evolution;
- The role of AGN feedback in regulating star formation;
- The CGM and IGM role in shaping star formation activity in galaxies.
The synergy between new observations of nearby systems and theoretical
studies will shed light on the interpretation of the results from more
distant galaxies. Furthermore, the results from distant galaxies will
in turn give us insights on the best way to identify local analogs to
better understand the star formation processes in earlier times. This
will also prepare the field for forthcoming observatories (e.g.,
Euclid, Vera Rubin Observatory, Roman, ELTs, SKA). This Symposium aims
to enhance our understanding of the drivers of galaxy evolution, a key
topic highlighted amongst the Astro 2020 priority areas. Here, we list
the open questions we will explore and discuss:
Conditions for star formation in galaxies and the role of stellar feedback
- What are the best star formation rate indicators at different physical scales and epochs? How does the presence of dust affect them across cosmic time?
- What drives the star formation activity in galaxies, from cloud-scales to galactic scales?
- How does stellar feedback affect the gas supply for star formation in galaxies across cosmic time?
The relationship between star formation and chemical evolution
- What are the most effective ways to trace both stellar and gas-phase metallicities at different epochs?
- How does star formation enrich the galaxy with metals from the early to the nearby Universe?
- What is the interplay between metal distribution and star-formation, and does it change across cosmic time?
The role of AGN feedback in regulating star formation
- How do we detect AGN at different epochs?
- What is the impact of AGN feedback on star formation across cosmic time?
- How do the Black hole-galaxy scaling relations (MBH-σ, MBH-M*) vary with redshift?
The CGM and IGM role in shaping star formation activity in galaxies
- How can kiloparsec or megaparsec-scale variations in the environment affect star-formation on micro-scales?
- What can we learn about the baryon cycle in galaxies (SF-AGN interplay, inflows & outflows, metal dilution/enrichment) via observations of the CGM and IGM at different epochs?
For additional questions, please see the conference
website.
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Anticipating the Rising Tide of Tidal Disruption Events: Theory and Observations
- Meeting Dates: 2024 Apr 23 - 26
- Meeting Location: Santa Barbara, CA, USA
- Absract Deadline: 2024 Mar 1
- Registration Deadline: 2024 Mar 24
Tidal disruption events (TDEs), which occur when a star is destroyed
by the immense tidal field of a supermassive black hole, fuel
luminous accretion flares that provide unique insight into the
properties of galactic nuclei and their central black holes. The
detection rate of these events has accelerated in recent years
thanks to advances in wide-field survey capabilities across the
electromagnetic spectrum. Nonetheless, there remain theoretical
uncertainties in the modeling of TDEs that obfuscate understanding
in the face of observations, and our ability to use TDEs as a
collective Rosetta Stone for deciphering black hole demographics
across cosmic time remains elusive. To bridge theory and observation
and to start to tap the wealth of understanding contained within TDE
observations, this conference aims to unite the diverse field of
astronomers working on TDEs and the related fields of variable
Active Galactic Nuclei (AGN) and X-ray binaries. This conference
will highlight the recent advances that have been made in
understanding TDEs, make connections to related astrophysical
phenomena, and elucidate the most outstanding questions in TDE
theory and observation.
For this conference, upon registering you will have the opportunity
to submit an abstract to present your work, the deadline for
abstract submission is March 1st. We have a limited number of
remaining slots to be filled with contributed talks, and in the
event that we are unable to fit you into the talk schedule, we may
be able to assign your abstract to a poster that will be displayed
throughout the duration of the conference. Each poster board is 4
feet high x 6 feet wide. We ask that the posters be no larger than
44 inches high x 34 inches wide at the most (it is important to
follow these measurements or posters may be turned down due to
limited space).
For additional questions, please see the conference
website.
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"Some like it hot!" A Journey from the Hot IGRM to the Multiphase CGM
- Meeting Dates: 2024 April 22 - May 17
- Meeting Location: MIAPbP, Munich, Germany
- Registration Deadline: 2023 Sep 24
The exchange of mass, energy, and metals between galaxies, their surrounding circum-galactic medium (CGM), and the gas permeating halos at larger scale represents a fundamental part of the modern astrophysics. Both components still elude our knowledge. Indeed, we are very far from having a census of the CGM properties in the bulk of the galaxy population. Furthermore, the halo gas is well known at large scale only in the most massive halos of our Universe, the galaxy clusters (intra-cluster medium, ICM), but it is still very elusive in the bulk of the virtualized halo population at the group mass scale (Intra-group medium IGrM).
For this reason, so far, the study of such baryon cycle has been linked almost exclusively to galaxy evolution in a so called "streetlight bias". Albeit more difficult to detect, the IGrM and the CGM are the other two key players on the stage, and their evolution across cosmic time is linked to the baryon exchange as much as the galactic component. Due to the substantial lack of information on the nature of the CGM and IGrM at large scales, many key questions remain unanswered. For instance, how is the IGrM affected at large scales by the feedback imparted energy? In other words, how does the baryon cycle affect the large-scale structure of our Universe? How much energy, momentum and entropy are released to the still elusive CGM hot component around galaxies? What is the main mechanism of interplay between CGM and central galaxy?
With the advent of instrument such as eROSITA, XRISM and JWST, and the
enormous variety of results collected by Alma, MUSE, KCWI and LOFAR,
it is time to review the state of the art of this research
field. The final goal of this workshop is to fill the knowledge gap
and review in an unbiased way all the key aspects of the baryon
cycle: from the hot IGrM enclosed in the bulk of the virtualized
halo population, to the CGM at hundreds of kpc from the central
galaxy, and down to the main mechanisms in act at the galaxy center
able to trigger the baryonic exchange.
For additional questions, please see the conference
website.
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Towards a Physical Understanding of Tidal Disruption Events
- Meeting Dates: 2024 Apr 22 - 25
- Meeting Location: Santa Barbara, CA, USA
- Application Deadline: 2023 Jan 29
A tidal disruption event (TDE) occurs when a star is pulled apart by the gravitational field of a supermassive black hole (SMBH), transforming the star into a stream of stellar debris. In a matter of months, a fraction of this debris stream returns to the SMBH and ignites an accretion flare in the nucleus of the galaxy where it resides. TDEs have been observed in great detail across the electromagnetic spectrum; from the initial rise in flux to the decay back to quiescence. Such observations may enable an inference of the SMBH and disrupted star properties, while also providing a unique window into poorly understood aspects of accretion theory, such as the nature of super-Eddington flows and the production of jets and outflows.
The large increase in observational data for TDEs will provide an unprecedented census of the low-mass end of the SMBH population, but to take full advantage of this influx of data, we need robust and predictive theoretical models for the radiation from these events. The goal of this program is to bring theorists and observers together to answer some of the most pressing questions on the physics of TDEs. From the processes that generate stars on fateful orbits toward the SMBH, to the initial destruction of the star and the formation of an accretion flow, to the production of high-energy radiation and outflows, this program aims to test, revise and extend our current understanding of TDEs.
For additional questions, please see the program
website. See also the associated conference information.
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Science with the Hubble and James Webb Space Telescopes VII: Stars, Gas & Dust in the Universe
- Meeting Dates: 2024 Apr 29 - May 2
- Meeting Location: Porto, Portugal
- Abstract submission deadline: 2024 Jan 26
- Registration deadline: 2024 Mar 22
We are delighted to announce the latest in a series of ESA-sponsored
conferences, in collaboration with STScI, which highlight the
scientific impact of the Hubble and James Webb Space
Telescopes. After much anticipation of their complementary
capabilities, we are now in the remarkable period of having these
two pioneering observatories in science operations at the same time
— the much-heralded Golden Age for UV-optical-IR space astronomy has
arrived!
Hubble, a long-standing partnership between NASA and ESA, is
continuing to surprise and inspire us with new results and
breakthroughs. As we look ahead to the 35th year of science
operations, its use and powerful complementarity with other
facilities continues to evolve, with the community finding novel and
innovative applications for its unmatched ultraviolet-visible
capabilities.
We are now also witnessing the first exciting results from JWST, a
collaboration between NASA, ESA, and the CSA. With performance
beyond our expectations, JWST is quickly transforming our view of
the universe on all scales, from new insights in our Solar system
and nearby exoplanets, to revealing the formation and growth of the
very first galaxies and black holes.
These two observatories are now combining to give us unique views of
stars, gas and dust in the universe. These span the processes of
nearby star and planet formation, the properties of the interstellar
medium in galaxies near and far, the production of dust in
supernovae and evolved stars, and new insights into the dust content
and star formation in the early Universe.
Of course, Hubble and Webb are far from working alone. A broad range
of ground-based and space-borne facilities are helping to provide us
with a multi-wavelength view to unlock our understanding of the
Universe. These include the rich legacy from the Gaia mission, the
start of science operations with Euclid to explore the dark
Universe, the exquisite resolution and sensitivity of ALMA in the
sub-mm, and the imminent first light of the Rubin Observatory. Looking
ahead, the second half of the decade will bring major new space
missions, such as Roman, PLATO and ARIEL, and the first light of the
European Extremely Large Telescope.
The science program will feature a combination of invited and contributed talks, with the objectives to:
- Highlight the latest Hubble and Webb results in studies of stars, gas and dust over all scales, with a focus on results with strong synergies between the two missions and with other facilities.
- Identify key topics for new programs and initiatives that will harness the powerful combined capabilities of these two observatories.
- Explore future synergies of Hubble and Webb with other existing and planned facilities.
- Look ahead to the future scientific questions that will shape astrophysics into the 2030s and beyond.
Invited Speakers:
Angela Adamo (Stockholm University);
Sara Bonito (National Institute for Astrophysics/Osservatorio
Astronomico Di Palermo);
John Carpenter (Atacama Large Millimeter/Submilimeter Array);
Michele Cirasuolo (European Southern Observatory);
Elodie Choquet (Laboratoire d'Astrophysique de Marseille/Aix-Marseille
University);
Ruobing Dong (University of Victoria);
Aaron Evans (University of Virginia);
Janice Lee (STScI);
Andrew Levan (Radboud University);
Pascal Oesch (University of Geneva);
Adam Riess (STScI/JHU);
Julia Roman-Duval (STScI);
Irene Shivaei (Centro de Astrobiología/Spanish National Research
Council);
Brent Tully (University of Hawaii)
Science Organizing Committee:
Chris Evans, Chair (ESA/STScI);
Jarle Brinchmann (Instituto de Astrofísica e Ciências do
Espaço);
Beth Biller (University of Edinburgh);
Daniela Calzetti (University of Massachusetts);
Paul Crowther (University of Sheffield);
Kalliopi Dasyra (University of Athens);
Annalisa De Cia (European Southern Observatory);
Melissa McClure (Leiden University);
Stefanie Milam (NASA/GSFC);
Nathalie Nguyen-Quoc Ouellette (Université de Montréal);
Neill Reid (STScI);
Megan Reiter (Rice University);
Jennifer Wiseman (NASA/GSFC);
Adi Zitrin (Ben Gurion University)
Local Organizing Committee:
Paule Sonnentrucker, co-chair (ESA/STScI);
Jarle Brinchmann, co-chair (Instituto de Astrofísica e Ciências do
Espaço);
Joana Bateira (Instituto de Astrofísica e Ciências do Espaço);
Brett Blacker (STScI);
Afonso do Vale (Uniersidade do Porto);
Maria Gunnarsson (ESA);
Sherita Hanna (STScI);
Holly Reedy (STScI for ESA);
Jean-Baptiste Regnard (STScI for ESA);
Elsa Marta Silva (Instituto de Astrofísica e Ciências do
Espaço);
Sofia Velasco (ATG for ESA);
Daniel Voz (Universidade do Porto)
For additional questions, please see the conference
website.
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Massive Black Holes in the First Billion Years
- Meeting Dates: 2024 Apr 29 - May 3
- Meeting Location: Kinsale, Co. Cork, Ireland
We are on the cusp of significant advancements to our understanding of the origins and early growth of massive black holes with current and near-future electromagnetic observations by JWST and other upcoming missions which will be complemented by gravitational wave detections with LISA in the coming decade. The focus of this conference is on recent advancements in both observations and theory on the origin, growth and dynamics of MBHs in the early Universe. Follow the pre-registration link above to let us know you are interested and you will receive an email when abstract submission is open!
Topics of interest:
- Observations and predicted properties of AGN and their hosts at early times
- Constraining MBH formation mechanisms with multimessenger observations at low and high redshift
- Predictions for MBH seed masses from low redshift observations of dwarf galaxies
- Challenges (both theoretical and observational) to observing and interpreting data on early MBHs
- MBH-galaxy co-evolution and feedback in the early universe
- Dynamics of MBHs and MBH binaries in the early Universe
- How can we connect current and near-future E-M observations to future GW detections to do astrophysics?
- Understanding the environment of high redshift MBHs and AGN and how it
affects their early evolution
For additional questions, please see the conference
website.
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Extreme Galaxies in their Extreme Environments at Extremely
Early Epochs
- Meeting Dates: 2024 Apr 29 - May 3
- Meeting Location: Reykjavik, Iceland
- Abstract Deadline: 2023 Nov 15
- Early Registration Deadline: 2024 Jan 31
- Early Registration Deadline: 2024 May 1
Extreme galaxies and extreme environments have long served as key benchmarks for models of galaxy formation. The mere existence of such galaxies and environments creates significant challenges to physical models of galaxy formation, as such models must be able to explain the formation of "normal galaxies" in "normal environments" as well as the extreme tail of the galaxy and environmental distribution. For example, massive and quenched/strongly star-forming galaxies have long placed significant constraints on quenching models. Likewise, the existence of proto-clusters containing both strongly starbursting and quenched galaxies are forcing us to reevaluate the effect of environment on galaxy evolution at high redshift. Studies at 1 < z < 2 have raised a host of new questions about galaxy evolution that can only be answered by turning our gaze to even higher redshift. Fortuitously, the coming of observatories such as JWST, ALMA and the upcoming Euclid and Roman Missions are opening up the study of the z > 2 universe with large surveys that make possible the study of extreme galaxies and extreme environments at the very highest redshifts. The goal of this meeting is to bring together theoreticians and observational astronomers working on extreme galaxies in extreme environments at z > 2 to summarize the state of these fields and discuss how they are pushing forward our understanding of the physics of galaxy formation.
This 5-day meeting will focus on 4 key themes under the general topic of extreme objects. The four topics that will be discussed in the meeting are:
- Extreme galaxies: Massive galaxies, dusty-star-forming galaxies, high/low mass quiescent galaxies, AGN, and other extreme objects
- Extreme environments: Proto-clusters, galaxy overdensities, and voids
- Extreme galaxies in extreme environments: Is the evolution of extreme galaxies and environment linked at high-redshift and if so, how?
- The evolution with time of extreme galaxies and environments: How do these extreme environments/objects connect to lower-redshift descendants (z < 2) and what does this tell us about the physics of galaxy formation?
The "extreme" landscape and environment of Iceland should provide the ideal backdrop for lively discussion and debate!
We envisage an engaging and lively meeting in which we discuss the status, challenges and prospects for these specific areas of galaxy evolution. We also envisage intense discussion/brainstorming sessions to summarize where we are, what we do not understand, what is controversial and how we can make progress in the next few years.
This is meant to be a mid-sized conference with ~100-120 participants.
Organizers:
Benedetta Vulcani, INAF OaPD (chair); Adam Muzzin, York University (co-chair); Greg Rudnick, University of Kansas (co-chair)
Scientific organizing committee (SOC):
Gabriella De Lucia; Michele Fumagalli; Nina Hatch; Jackie Hodge; Adam Muzzin; Greg Rudnick; Rhea-Silvia Remus; Sandro Tacchella; Benedetta Vulcani; Kate Whitaker
For additional questions, please see the conference
website.
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Gravitational waves: a new ear on the chemistry of galaxies
- Meeting Dates: 2024 April 29 - May 3
- Meeting Location: Leiden, The Netherlands
The fields of gravitational-wave astrophysics and galaxy evolution
have a vast amount to learn from one another. Understanding the
evolution and chemical enrichment of galaxies is crucial to
unravelling the evolutionary origin of black hole/neutron star
mergers, which are now regularly detected via gravitational
waves. Correspondingly, these gravitational-wave events offer a new
observational tool with which to probe the evolution and enrichment of
galaxies over cosmic time. This complementarity brings unique
opportunities for synergies and collaboration.
The aim of this meeting is to i) get communities together and foster
interaction and exploration and ii) identify future opportunities and
start new collaborations. This will be a strongly interactive
workshop, with large part of the program reserved for discussions,
unstructured interaction and breakout discussions.
Intensifying this cross-topical conversation is timely. We now have
more than one hundred confirmed gravitational-wave observations of
merging double compact objects, with potentially hundreds more
revealed in the ongoing LIGO-Virgo-KAGRA observing run. As we speak,
the IR imaging and spectroscopic capabilities of the JWST are
revolutionizing the field of early galaxy evolution and chemical
enrichment, and the next generation of large spectroscopic galaxy
surveys is about to start. Discussion and activities undertaken at the
meeting can thus seek to leverage this growing body of cutting edge
data, while also defining the questions and methodologies to be
explored with the next generation of spectroscopic galaxy surveys and
gravitational-wave detectors.
For additional questions, please see the conference website.
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Rare Gems in Big Data
- Meeting Dates: 2024 May 20 - 23
- Meeting Location: Tucson, AZ, USA
- Abstract Deadline: 2024 Mar 1
- Registration Deadline: 2024 Apr 19
- Room Reservation Deadline: 2024 Apr 26
Main topics:
Surveys, time-domain and multi-messenger astrophysics, galaxies,
cosmology, Milky Way and nearby galaxies, stellar populations,
exoplanets, Solar System objects, techniques and tools.
Introduction
NOIRLab was established in 2019 to enable and share breakthrough
discoveries in astronomy and astrophysics with state-of-the-art
ground-based observatories, data products, and services for a
diverse and inclusive community. As part of this mission, we are
happy to announce the first in a regular NOIRLab conference series,
on the topic of Rare Gems in Big Data.
Discoveries of rare gems in large astrophysical surveys have the
potential to transform our understanding of the Universe across a
broad range of science areas, such as the Milky Way and its halo,
transients and variables, moving objects, planetary systems, and
multi-messenger astronomy. Such discoveries, however, will be driven
not only by the available data but also by the tools and
infrastructure available to mine them. The motivation for this
four-day NOIRLab conference is to explore the discovery space
enabled by ongoing and upcoming astrophysical surveys (DESI,
Rubin/LSST etc.) and the tools and techniques needed to find rare
gems in them, including anomaly detection, citizen science, and AI &
machine learning. We will also highlight the importance of
spectroscopic and photometric follow-up observations and the
services and tools developed by NOIRLab and others such as data
archives, science platforms, and real-time astronomy systems.
The conference will feature talks by experts in the field to give
background and set context, sessions designed for discussion and
active engagement by participants, and live demos with opportunities
for participants to try out new techniques.
The gems within the data are ready to shine brightly at this unparalleled gathering of astronomical minds.
For additional questions, please see the conference
website.
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Cosmic Ray Feedback in Galaxies and Galaxy Clusters
- Meeting Dates: 2024 May 26 - Jun 16
- Meeting Location: Aspen Center for Physics, Aspen, Colorado, USA
Understanding the processes underlying galaxy formation is one of the most important challenges in astrophysics. Unresolved questions include the disconnect between the short time scale of gas collapse on small scales and the long time scale for galaxy evolution, as well as the mechanism responsible for ejecting mass, momentum, and energy out of galaxies (or preventing their infall) in a way that matches the observed scaling relations. Recent progress in the field of astrophysical feedback strongly suggests that relativistic particle populations called cosmic rays may play a crucial role in controlling these processes in and around galaxies and galaxy clusters. However, the strength of cosmic ray feedback depends very sensitively on the dynamical coupling of cosmic rays to the plasma, a complete understanding of which will require novel plasma physics insights. Connecting detailed simulations to multi-frequency and multi-messenger observations will be of paramount importance for elucidating the underlying physics. Hence, the goal of this workshop is to bring together an interdisciplinary group of scientists studying plasma physics, cosmic ray propagation in the Milky Way, high-energy astrophysics (embracing radio, X-ray, and gamma-ray astronomy), galaxy formation, and evolution of galaxy clusters in order to learn from each other, facilitate collaborations among the participants, and advance the field into an era of predictive galaxy formation.
For additional questions, please see the conference website.
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The X-ray Mysteries of Neutron Stars and White Dwarfs
- Meeting Dates: 2024 Jun 5 - 7
- Meeting Location: ESAC, Madrid, Spain
- Registration Deadline: 2022 Sep 10
The X-ray emission from neutron stars and white dwarfs has been a subject of extensive research, unveiling unique insights into the high-energy phenomena occurring within these compact stellar remnants. In this meeting, we gather experts from various disciplines to delve into the latest advancements in understanding the X-ray emission processes, its origin, and the astrophysical implications associated with neutron stars and white dwarfs.
We will explore the diverse X-ray emission mechanisms, ranging from thermal emission due to accretion processes, magnetic fields, and nuclear reactions, to non-thermal emission originating from particle acceleration and magnetic reconnection events. These mechanisms provide crucial insights into the physical conditions and dynamics present in the extreme environments surrounding neutron stars and white dwarfs.
The X-ray spectra and timing properties will be discussed in detail, enabling a deeper understanding of the underlying emission mechanisms and the associated astrophysical phenomena. Spectral analysis techniques will shed light on the composition, temperature distribution, and physical parameters of the emitting regions. Furthermore, timing studies will reveal periodic and aperiodic variability, aiding in the characterization of rotational dynamics, accretion phenomena, and potential gravitational wave signatures.
In addition, we will explore the role of X-ray emission in the context of binary systems, investigating the interactions between compact objects and their stellar companions. X-ray binaries, including pulsars and cataclysmic variables, provide unique opportunities to study the accretion processes and the influence of intense magnetic fields on the X-ray emission.
Finally, we will discuss the implications of X-ray studies for our broader understanding of astrophysics. The X-ray emission from neutron stars and white dwarfs offers invaluable insights into compact object formation, stellar evolution, and the interplay between magnetic fields, radiation, and matter in extreme conditions. Synergies with radio, infrared, optical, gamma-rays and multi-messenger studies will be looked at, fostering interdisciplinary discussions and collaborations, encouraging the exchange of ideas. By collectively unraveling the high-energy mysteries, we strive to advance our understanding of these enigmatic stellar remnants and their impact on the cosmos as a whole.
For additional questions, please see the conference
website or email to xmmws2024 [at] esa [ dot] int.
-
Supernova Remnants III: An Odyssey in Space after Stellar Death
- Meeting Dates: 2024 Jun 9 - 15
- Meeting Location: Chania, Crete, Greece
- Abstract (contribution talks) Deadline: 2024 Mar 11
- Abstract (posters) Deadline: 2024 Apr 10
- Early Registration Deadline: 2024 Apr 10
- Registration Deadline: 2024 May 17
Following the success of the previous two conferences on supernova remnants in 2016 and 2019, a consensus was reached to hold regular meetings on the topic. Following delays due to COVID-19 pandemic, the Institute for Astronomy, Astrophysics, Space Applications & Remote Sensing of the National Observatory of Athens is happy to invite you to "Supernova Remnants III: An Odyssey in Space after Stellar death" on the beautiful island of Crete, the home of the mythical inventor and artisan Deadalus, as well as Icarus, Theseus and the Minotaur.
The conference will build upon spectral and imaging observations from radio to gamma-ray wavelengths of SNR blast waves, pulsar wind nebulae and SN ejecta and their interpretation through theoretical models and numerical simulations. The goals of the meeting are understanding the evolution of SNe, SNRs and their interaction with interstellar gas, elucidating the physical processes that govern shock waves and relativistic plasmas, and inferring characteristics of supernova explosions from SNR observations.
We will focus on narrowing the gap between observations and theories with the help of powerful new observing facilities and increasingly detailed and realistic numerical simulations. New understanding of the nature of supernova remnants and processes that occur there offers new insights into the role of SNRs in the structure and evolution of galaxies and the nature of supernova explosions.
Looking forward to seeing you in Crete!
For additional questions, please see the conference
website.
-
360° approach to Common Envelope Evolution: From Binary Progenitors to Remnants
- Meeting Dates: 2024 Jun 10 - 14
- Meeting Location: Barcelona, Spain
- Registration deadline: 2024 Feb 1
Common envelope evolution (CEE) is one key aspect of binary stellar
evolution. Due to its high complexity, it is also the least
understood, as current computational and theoretical
approaches cannot describe the full process from the initial
evolution of the progenitor binary system to unstable mass
transfer, dynamical ejection (astrophysical transient), and
final evolution of the remnant system. The goal of this
workshop is to stimulate new collaborative research in this
field by combining theory, simulations, population synthesis,
and observations. To do this, we aim to review the state of
the art for each CE stage, identify the main challenges, and,
through discussions, envisage a strategy to approach them
from a multi-disciplinary perspective. The full list of
science topics can be found here.
Due to the highly
interactive format of the workshop, we encourage in-person
attendance, although online participation will also be
possible. Registration can be done through the workshop's
website, where you can also find the preliminary program, and
additional information about the venue. The relevant dates
for this workshop are explained here. Because of its
interactive nature, the workshop will have a limited number
of participants, which will be notified on the 1st of March
2024.We encourage early registration and reservation of
accommodation and travel since economic hotels and flights
fill in very rapidly in Barcelona in the summertime.The
organization offers funds to cover the accommodation expenses
for a limited number of participants. If you need financial
support, please contact the SOC.
Scientific Organizing Committee: Nadejda Blagorodnova
(University of Barcelona, Barcelona, Spain); Alexey Bobrick
(Technion Israel Institute of Technology, Haifa, Israel); Hila
Glanz (Technion Israel Institute of Technology, Haifa,
Israel); Tomasz Kamiński (Nicolaus Copernicus Astronomical
Center of the Polish Academy of Sciences, Toruń,
Poland); Friedrich Roepke (Heidelberg Institute for Theoretical
Studies, Heidelberg, Germany); Silvia Toonen (University of
Amsterdam, Amsterdam, The Netherlands).
For additional questions, please see the conference website.
-
Dawn VII interest form
- Meeting Dates: 2024 Jun 12 - 13
- Meeting Location: Vancouver, British Columbia, Canada
Dawn VII, the next in the Dawn series of meetings addressing the future of the field of GW astrophysics with ground-based detectors, will be held in Vancouver, British Columbia Wed-Thurs June 12-13, 2024.
This discussion-based workshop will focus on planning for upgrades to
the LIGO detectors (in the 2030-2035 timeframe) and the
next-generation Cosmic Explorer detectors, in the context of a
global network of future ground-based detectors. This meeting should
engage a broad representation of our global community to place plans
for new detectors in the context of multi-messenger astrophysics,
cosmology, nuclear physics, and astronomy.
We expect there will be space for ~150 attendees.
For additional questions, please
see the conference
website.
-
Future Innovations in Gamma Rays Science
Analysis Group (FIG-SAG) Meeting
- Meeting Dates: 2024 Jun 24 - 28
- Meeting Location: Michigan Tech, Michigan, USA
SAVE THE DATE! Details TBA
For additional questions, please
visit the FIG SAG
website.
-
AGN across Continents
- Meeting Dates: 2024 Jul 8 - 12
- Meeting Location: Durham, UK
- Abstract Deadline: 2023 Dec
- Registration Deadline: 2024 Mar/Apr
This scientific workshop will explore current understanding of AGN populations, with a particular focus on current and future observational surveys. The primary scientific questions to be addressed are:
- How can we establish a complete census of black hole growth across
cosmic time (including the highest redshift AGN) and what does this
tell us about how and when supermassive black holes form and
grow?
- What can multi-wavelength surveys tell us about different physical components of AGN and what implications does this have for a standard/unified model or evolutionary model of AGN?
For example: obscured vs. unobscured AGN; red vs. blue quasars;
'radio quiet' vs. 'radio loud' AGN. This could include understanding
the information we need from the different physical components of an
AGN (e.g., obscuring torus, narrow line region, broad line region,
jets, etc.).
- What are the properties of the host galaxies of different AGN
populations and what does this tell us about how galaxies and AGN
influence each other?
- What are the different data, observational techniques, and analysis methods we need to accelerate progress in answering these questions over the coming decade?
This could include: exploiting SKA and its pathfinders; utilising current and forthcoming large-scale photometric/spectroscopic surveys; placing new constraints on magnetic fields; and applications of machine learning.
The scope of this workshop covers observational and theoretical work across the full wavelength range that tackle these scientific questions.
A parallel objective to the scientific content, is to build research connections between the European and African continents. Towards this, there will be substantial financial support to enable participation from astronomers based in Africa, who might otherwise be unable to attend the workshop. In conjunction with the scientific programme, we will hold dedicated activities before, during, and after the workshop to develop collaboration between the different scientific communities, and provide early career researchers with peer networking opportunities.
We anticipate a strong showcase of work that is of strong interest to both the European and African communities. For example, results from SKA pathfinder telescopes such as LOFAR, e-MERLIN, JVLA, and MeerKAT, in addition to telescopes such SALT in South Africa and H.E.S.S. in Namibia. Whilst the focus is on European-African collaboration, scientists from everywhere are welcome to participate.
The workshop will be limited to around 80 participants. Selection will be based on the quality of abstract submissions for talks or posters, and their alignment to the focus of the meeting. Consideration will also be made to a strong representation from African astronomers, to ensure a balanced view of AGN science across the continents.
Costs and Financial Support
The anticipated conference fee is around £350 (details to be confirmed later).
We have a substantial (but finite) budget to support scientists coming from Africa. This could cover, up to and including all travel and accommodation costs, plus a fee waiver. Preference for financial support will be given to those most in need, and to early career researchers. Applicants should indicate in their form, the level of financial support they would require to attend the workshop (e.g., travel, accommodation, fee waiver, complete costs, etc.).
SOC/LOC
Scientific Organising Committee:
Chris Harrison (UK) - Co-Chair;
Leah Morabito (UK) - Co-Chair;
Mirjana Pović (Ethiopia);
James Chibueze (South Africa);
Cristina Ramos Almeida (Spain);
Zara Randriamanakoto (South Africa);
Eli Kasai (Namibia);
James Aird (UK);
Brooke Simmons (UK)
Local Organising Committee:
Nicole Thomas (Durham);
Ann Njeri (Newcastle);
Houda Haidar (Newcastle);
Emmanuel Bempong-Manful (Manchester);
Leah Morabito (Durham);
Chris Harrison (Newcastle)
For additional questions, please see the conference
website.
-
EUROWD24: 23rd European Workshop on White Dwarfs
- Meeting Dates: 2024 Jul 8 - 12
- Meeting Location: Barcelona, Spain
- Abstract deadline: 2024 May 15
- Early Registration deadline: 2024 Apr 1
In this edition, we have the pleasure of commemorating the 50th
anniversary of the workshop meetings, which began in Kiel, Germany, in
1974.
As in previous editions, any topic related to white dwarfs is
welcome. In particular, some of the most relevant in recent years have
been:
- WD Structure and Cooling Processes
- WD Populations, Galactic Components, Local Star-Formation History, Initial-to-Final Mass Function, Luminosity Function, Mass Distribution
- WDs in New Surveys
- WDs in Binaries: Cataclysmic Variables (CVs), Supernova Type Ia Progenitors, Supersoft X-ray Sources, Double Degenerate WD/Brown Dwarf Systems, etc.
- WD Dust Disks and Planetary Systems
- WDs in Open and Stellar Clusters
- WD Atmospheres, Chemical Composition, and Magnetic Fields
- WD Progenitors; Central Stars of Planetary Nebulae, Hot-subdwarfs
- Asteroseismology and Pulsating WDs
- Automated Classification and Statistical Techniques in WD Research
We look forward to seeing you all in Barcelona24
Santiago Torres and Alberto Rebassa-Mansergas on behalf of the
LOC/SOC.
For additional questions, please see the conference website.
-
COSPAR
E1.13: Observations and Prospects for X-ray Polarimetry
- Meeting Dates: 2024 Jul 13 - 21
- Meeting Location: Busan, South Korea
- Abstract deadline: 2024 Feb 16
- Early Registration deadline: 2024 May 3
- Registration deadline: 2024 Jun 3
X-ray polarimetry can provide insights to various physical phenomena
that are not otherwise possible. Observations of a few targets by
INTEGRAL, PoGO+, and XL-Calibur at high energies and new results
every month from IXPE have started to reshape the field of X-ray
astronomy. Furthermore, there are the prospects for instruments in
development such as REDSoX, eXTP, and COSI with sensitivity ranging
from 0.2 keV to 5 MeV. The main topics of the event would be current
and upcoming instrumentation, observational results from existing
missions, scientific principles and theoretical considerations
relating to X-ray polarization, and models of possible
observations. Observations in other bandpasses are often relevant
for modeling and are encouraged.
Scientific Organizing Committee:
Matthew
Baring (Rice U., USA), Michal Dovciak (Astron. Inst. CAS, Czech
Republic), Hua Feng (Tsinghua U., China), V Girish (ISRO, India),
Alice Harding (NASA/GSFC, USA), Svetlana Jorstad (Boston U., USA),
Phil Kaaret (NASA/MSFC, USA), Henric Krawczynski (Washington U.,
USA), Giorgio Matt (U. Roma Tre, Italy), Stephen O'Dell (NASA/MSFC,
USA), Biswajit Paul (Raman Research Inst., India), Mark Pearce (KTH
Royal Inst. of Tech., Sweden), Kasiviswanathan Sankarasubramanian
(URSC, India), Paolo Soffitta (INAF/IAPS, Italy), Silvia Zane
(U. College London, UK), Shuang-Nan Zhang (IHEP, China)
The list of accepted abstracts will be made public shortly after the Program Committee meeting of end April 2024.
For additional questions, please see the conference website.
-
The Origin and Evolution of Supermassive Black Holes
- Meeting Dates: 2024 Jul 15 - 19
- Meeting Location: Sexten Center for Astrophysics, Italy
- Abstract deadline: 2024 Mar 1
With a host of exciting new observational results, especially JWST
detections at high redshifts and discovery of the
gravitational wave background from pulsar timing arrays, the
time is now ripe for a conference to discuss the origin and
evolution of supermassive black holes (SMBHs). This meeting
aims to bring together researchers from a variety of fields
and cover the following science themes:
- SMBH Formation Theories
- SMBH Accretion Processes & Growth Models
- SMBH
- Galaxy Relations
- SMBH
- Star Formation Connections
- SMBH Feedback
- Massive Star & Supermassive Star Formation
- First Star and Galaxy Formation
- Observations of SMBHs in the Early Universe
- Cosmic Reionization
- Gravitational Wave Observations of SMBH Binaries
- SMBH and AGN Demographics, including Multiplicity
- Lessons from the Galactic Center
Meeting schedule:
Sunday 14th July 2024, Welcome reception
Monday 15th - Friday 19th July 2024, 4 days of science sessions + 1
day excursion
SOC: Pierluigi Monaco (co-chair); Jonathan Tan (co-chair); Richard Ellis; Xiaohui Fan; Raffaella Schneider et al.
LOC: Vieri Cammelli; Pierluigi Monaco; Jasbir Singh; Jonathan Tan et al.
We expect the conference may be over-subscribed, so attendance at the conference is only for those with abstracts accepted by the SOC.
For additional questions, please see the conference website.
-
Multi-messenger Transients from Binary Mergers
- Meeting Dates: 2024 Aug 4 - 25
- Meeting Location: Aspen, Colorado, USA
The first joint gravitational wave and electromagnetic detection of the binary neutron star GW170817 marked the dawn of the multi-messenger era with GWs. This watershed event opened a new window to study phenomena such as heavy element nucleosynthesis, black hole formation, the Universe's expansion rate, the equation of state of dense matter, and the intricate dynamics of relativistic jets. These profound inquiries have reignited interest in investigating similar physical processes at play in black hole-neutron star mergers and core-collapse supernovae. This endeavor necessitates the development of predictive models in anticipation of forthcoming observations in 2024 by LIGO-Virgo-KAGRA, Rubin Observatory, and future observation campaigns, that will transform the field of high-energy astrophysics transients. The primary goal of this workshop is to bring together physicists with diverse backgrounds in both theoretical and observational expertise within the domains of electromagnetic, gravitational wave, and particle emissions. Collectively, they will engage in collaborative efforts to identify and investigate pathways for tackling the pivotal scientific questions at the core of this rapidly evolving field.
For additional questions, please see the conference website.
-
IAU Symposium 392 — Neutral Hydrogen in and around Galaxies in the SKA Era
- Meeting Dates: 2024 Aug 13 - 15
- Meeting Location: Cape Town, South Africa
As the long term reservoir of fuel for star formation, knowledge of the neutral hydrogen (HI) properties of galaxies is essential to fully understand the build-up of the stellar mass and evolution of galaxies. With next-generation radio telescopes opening new observational frontiers in the study of HI, we can, for the first time, follow the HI emission from galaxies across cosmic time. The unprecedented quality of the SKA Observatory precursor and pathfinder telescopes provides resolved HI detections of large samples of galaxies beyond the local Universe, giving a clearer view of the cycle of gas acquisition and loss, storage and consumption. The HI scaling relations defined at z=0 are now being extended over billions of years of lookback time, yielding new inputs, as well as benchmarks to be reproduced, for the cosmological simulations of galaxy formation and evolution. As we enter the SKA era, HI observations are joining the extragalactic census in a way that has not been possible until now. This proposed IAU symposium will bring together the observational and theoretical communities to build a more complete understanding of the life cycle of galaxies, which better incorporates the information from HI observations that has often been previously missing from our multi-wavelength view of galaxy evolution.
Key Topics:
- HI in the life-cycle of galaxies
- Connecting simulations of HI to observations
- An unbiased and resolved view of HI in the local Universe
- Evolution of HI galaxy scaling relations across cosmic time
- Constraining our cosmological model with HI observations
- Environmental processes as traced by HI
- The smallest galaxies as revealed by their neutral gas content
For additional questions, please see the conference website.
-
I-HOW/COSPAR
Workshop: A New Era of High-Resolution X-Ray Spectroscopy
- Meeting Dates: 2024 Aug 19 - 30
- Meeting Location: Fudan University, China
- Registration deadline: 2024 Mar 22
Warm and hot astrophysical plasmas are ubiquitous in the Universe,
e.g. stellar coronae, hot gas in supernova remnants,
ionized outflows running away from black holes, hot atmosphere of individual galaxies and galaxy assemblies, and warm-hot intergalactic medium in the cosmic web filaments.
Characteristic emission and absorption spectral features in high-resolution X-ray spectroscopy provide powerful diagnostics to quantify the physical properties of the ionized plasmas, including temperature, density, abundance, kinematics, etc.
These physical properties are essential to advance our
knowledge of the formation and evolution of the
Universe.
In the past few decades, high-resolution X-ray spectra have been
sourced from the grating spectrometers aboard Chandra and
XMM-Newton. In the next decade, we will enter a golden era for
high-resolution X-ray spectroscopy, when most of the next-generation
X-ray space observatories will have high-resolution spectrometers
aboard, such as XRISM/Resolve, Athena/X-IFU, and proposed missions
like HUBS, Arcus, LEM, etc. All these missions will provide a large
number of high-resolution X-ray spectra.
The main goal of this I-HOW/COSPAR workshop is to facilitate the
learning of high-resolution X-ray spectroscopy for early-career
scientists in the Asia-Pacific countries. We will invite experts to
teach:
- Current high-resolution X-ray spectrometers and archival databases;
- Data reduction and analysis skills on high-resolution X-ray spectra,
- Astrophysical plasma models and the underlying atomic data,
- The next generation of high-resolution X-ray spectrometers,
- Writing and evaluating observational proposals.
We will provide hands-on exercises for the learners.
For any queries and information please contact us via email at:
hr_xrayspectroscopy_2024 [AT] outlook [DOT] com or see the conference website.
-
TDEs and NTs in Crete 2024
- Meeting Dates: 2024 Sep 2 - 6
- Meeting Location: Heraklion, Crete, Greece
- Abstract deadline: 2024 May 31
Tidal Disruption Events and Nuclear Transients: Entering the Data-Rich
Era will be held in Heraklion, Crete, Greece on 2-6 September
2024. The conference will be in person at the Aquila Atlantis hotel
in the city of Heraklion.
The aim is to bring together theorists and observers broadly working in the field of Tidal Disruption Events and Nuclear Transients, as well as the adjacent fields of AGN/blazars, GRBs and X-ray binaries.
The main scientific themes of the conference are:
- Accretion disk theory
- Simulations/Modeling
- Jets and Outflows
- Multiwavelength/Multimessenger observations
- Connection to blazars/GRBs/XRBs/QPEs
- Host galaxies and environments
- Future experiments
For additional questions, please see the conference website.
-
AGN Feedback and Star Formation Across Cosmic Scales and Time
- Meeting Dates: 2024 Sep 2 - 6
- Meeting Location: Sirolo, Italy
We are pleased to announce the first of a series of conferences on
Astrophysics and Space Science in Marche, entitled "AGN Feedback and
Star Formation Across Cosmic Scales and Time" which will be held at
the historical theater of Sirolo, Italy, on September 2-6, 2024.
Scientific rationale
The star-formation properties of galaxies and the central
supermassive black holes that they host follow a tight
co-evolution. Current structure formation models invoke Active
Galactic Nucleus (AGN) feedback via quasar or radio modes at the
high stellar mass ends, as well as feedback from supernovae at low
stellar masses, to explain the observed number density of galaxies
as a function of stellar mass and redshift. However, despite
decades-long efforts both simulations and observations still
struggle to reach a consensus on the physical mechanisms regulating
star formation and feedback across all scales (from sub-parsec to
mega-parsec) and across cosmic history (from the local universe to
the first galaxies). The advancements of hydrodynamical and
semi-analytical simulations in terms of improved physically
motivated models, code efficiency, and hardware for HPC
infrastructures now allow us to reach unprecedented numerical
accuracy, but the sensitivity leap in recent and current
observations is further challenging our understanding of galaxy
formation in a cosmological context. The conference will gather
major experts to review the recent advancements in the field in the
context of multi-wavelength observations and their comparison with
theoretical and numerical models.
Key Science topics that will be covered:
- Star formation across cosmic epochs
- Quenching of star formation in galaxies
- Physics of star formation and feedback from supernovae and AGN
in simulations/li>
- High resolution imaging and spectroscopy of AGN feedback,
inflow/outflows and star formation (e.g., ALMA, JWST, MUSE, XRISM,
etc.)
- AGN feedback in clusters and dense environments
- Theoretical and observational aspects of the formation and
evolution of super massive black holes
Confirmed invited speakers:
David Alexander (Durham University); Marcella Brusa (University of
Bologna); Adam Carnall (Royal Observatory, Edinburgh); Françoise
Combes (Observatoire de Paris); Tiziana Di Matteo (Carnegie Mellon
University); Roberto Maiolino (University of Cambridge); Brian
McNamara (University of Waterloo); Raffaella Morganti (Kapteyn
Institute, Groningen); Valeria Olivares (University of
Kentucky); Annagrazia Puglisi (University of Southampton);
Debora Sijacki (University of Cambridge); Linda Tacconi (MPE);
Sylvain Veilleux (University of Maryland); Katherine Whitaker
(UMass); Feng Yuan (Fudan University)
Registration fees:
The registration fee of 250 euro will cover transportation from/to airport and/or Ancona train station, coffee breaks and the welcome drink on Monday. There will be a discounted fee for PhD students.
For additional questions, please see the conference website.
-
Binary and Multiple Stars in the Era of Big Sky Surveys
- Meeting Dates: 2024 Sep 9 - 13
- Meeting Location: Litomyšl, Czech Republic
- Early registration deadline: 2024 May 1
- Late Registration deadline: 2024 Jul 1
- Abstract Submission deadline: 2024 July
Most stars in our Universe live in Binary and multiple systems. Understanding these objects is critical for practically all fields of astrophysics. The presence of a companion significantly alters the evolution of a star and results in a plethora of unusual objects including type Ia supernovae, symbiotic stars, classical novae, or post-common-envelope systems. Observations of the binary stars enable us to directly determine masses, radii, and luminosities of stars. These are necessary inputs for all models of stellar structure and evolution. The presence of binary and multiple systems affects all galactic environments including stellar associations, open and globular clusters.
The field of binary systems significantly benefits from numerous all-sky surveys and satellite missions which are primarily focused on exoplanets or pulsating stars. The unprecedented precision of the satellite data revolutionized research of binary stars. Numerous fine effects are being routinely observed and must be taken into account in the modeling. The continuous satellite photometry led to the detection of long-period eclipsing binaries and multiply-eclipsing multiple systems. The study of binaries also benefits from a simultaneous analysis of different types of observations including radial velocities, line profiles, multi-color photometry, astrometry, or polarimetry. In spite of substantial progress in the field there are still many open questions. Those include the formation of close binaries and multiple systems, the common-envelope evolution, the magnetic dynamo, and activity in binary stars or stellar mergers.
The scientific meeting will be organized in the city of Litomyšl,
Czech Republic, on the week of September 9 - 13, 2024. The city will
be honouring Zdenek Kopal, one of the foremost investigators of binary
stars who was born in this city in 1914. A similar, smaller-scale
conferences in the same city took place in 2004 and 2014.
For additional questions, please see the conference website.
-
First Results from the SRG/eROSITA All-Sky Survey: From Stars to Cosmology
- Meeting Dates: 2024 Sep 15 - 20
- Meeting Location: Garching, Germany
- Abstract deadline: 2024 May 31
- Early Registration deadline: 2024 Jul 31
In little more than half a century, X-ray astronomy has established
itself as a fundamental domain of observational astrophysics. X-rays
probe the hot and energetic components of the Universe,
encompassing, among others, the million-degree coronae of stars, the
remnants of supernovae, the ultra-dense matter in neutron stars, the
immediate surroundings of black holes, the plasma filling galaxy
clusters — the most massive objects in the Universe.
The new X-ray telescope eROSITA launched successfully on July 13,
2019, on board the Russian/German X-ray mission Spektr-RG
(SRG). After commissioning and a successful performance verification
program, eROSITA has started mapping the entire sky at unprecedented
depths. Before being placed into safe mode on February 26, 2022,
eROSITA completed 4.4 all-sky surveys. As in any other astrophysics
domain, the eROSITA all-sky surveys unlock large swathes of
discovery space, provide large statistical samples to study various
classes of objects, and explore sufficiently large volumes to serve
as cosmological tools for the study of the Universe as a
whole. Serendipitous scientific highlights include an X-ray flash
from a nova, quasi-periodic eruptions, tidal disruption events, and
the eROSITA bubbles. The high sensitivity, large field of view, and
high survey efficiency of eROSITA are revolutionizing X-ray
astronomy: The first all-sky survey includes in the Western Galactic
Hemisphere, among others, more than 12.000 clusters of galaxies,
700.000 Active Galactic Nuclei, and 180.000 stars or compact stellar
objects. This exceeds the total number of previously discovered
celestial X-ray objects since the dawn of X-ray astronomy.
This conference follows the public data release of the first all-sky
survey, including source catalogs of point-like and extended
sources, images, spectra, light curves, and X-ray photon events. We
invite presentations of the first scientific results driven by the
international community. We plan to cover the following topics:
Galaxy Clusters and Cosmology:
- Physical properties of distant and nearby galaxy clusters, scaling relations
- Clusters as tracers of the large-scale structure of the Universe
- Tests of cosmological models with cluster statistics
- Theory and simulations of structure formation
Active galactic nuclei and galaxy evolution:
- Evolution and properties of the AGN population
- AGN as tracers of large-scale structure
- Extreme sub-populations (high redshift, high luminosity)
Galactic compact objects, stars, and planets
- Heliosphere
- Active stars: physics and population studies
- Cataclysmic variables and X-ray binaries
- Isolated neutron stars
- ULX and X-ray sources in nearby galaxies
The Transient X-ray sky
- Tidal Disruption Events
- Quasi-periodic eruptions
- Gamma-ray bursts and afterglows
- Galactic X-ray transients
- Gravitational Waves and other multi-messenger counterparts
Diffuse X-ray emission
- Hot plasmas in the Milky Way, LMC, and SMC
- Circum-Galactic Medium
- Supernova Remnants
- Cosmic X-ray background and its fluctuations
- High-energy physical processes in the solar neighborhood
Synergies with multi-wavelength surveys and multi-messenger probes
We hope that the attendees will enjoy the famous Oktoberfest of Munich, which is right after the conference.
For additional questions, please see the conference website.
Other Selected Astronomy, Physics and Space Science
meetings
Selected Astronomy-related Technology (e.g.,
Instrumentation) Meetings
Selected Astronomy-related Physics, Computational,
Data Analysis, Software or Statistics Meetings
Selected Space Science-related Education and Public
Outreach Meetings
- None
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