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.

High Energy Astrophysics

Meeting Dates: 2025 Dec 08 - 12
Meeting Location: Tempe, AZ, USA
Abstract Submission Deadline: 2025 Oct 1
Early Registration Deadline: 2025 Oct 15
Late Registration Deadline: 2025 Nov 30

The 33rd Texas Symposium on Relativistic Astrophysics will take place in the vibrant city of Tempe, AZ, from December 8 – 12, 2025. The event will be hosted at The Omni Hotel, very near Arizona State University, which offers state-of-the-art facilities to ensure a productive and enjoyable meeting.

We are thrilled to announce that John Mather, Jim Peebles, Adam Riess, George Smoot (TBC), and Frank Wilczek have already agreed to participate and attend the symposium.

Beyond the symposium, Tempe in December offers a perfect blend of outdoor adventures and festive activities, making it an ideal winter getaway. The mild temperatures invite visitors to explore the scenic beauty of Tempe Town Lake, hike the iconic Hayden Butte, or stroll through the Desert Botanical Garden. You can also experience the Tempe Fantasy of Lights Boat Parade, a dazzling display of holiday lights along the lake. The city hosts various seasonal events, including holiday markets, outdoor concerts, and ice skating rinks, offering attendees a chance to enjoy the warm desert climate while celebrating the holiday season.

The symposium will cover all major topics on high-energy and particle astrophysics, cosmology, and relativity. It will include morning plenary sessions and afternoon parallel sessions, which will function as mini-symposia in each sub-field. The plenary sessions will consist of ~45-minute review talks. The afternoon sessions will feature oral talks (about 15-30 minutes) and poster contributions. Registration will open in early May.

Meeting Dates: 2026 Jan 12 - 16
Meeting Location: LOS ALAMOS, NM USA

The modeling of astrophysical transients faces a number of challenges in radiation transport schemes, the atomic physics, implementation of opacities, the inclusion of out of equilibrium effects, …. Accurate models will require pushing the frontier in all of these fields, coupling advances in theory and simulation with cutting-edge laboratory physics and detailed astrophysical observations. This meeting brings together experts in all of these fields to forge collaborations to address this important problem.

For additional questions, please see the conference website.

Meeting Dates: 2026 Mar 15 - 22
Meeting Location: La Thuile (Italy)

The Rencontres de Moriond session on Very High Energy Phenomena in the Universe will review the subject 2 years after the last edition.

The main topics of the conference are: (to be updated)

  • Origin and Propagation of Cosmic Rays
  • Compact Objects
  • High Energy Cosmic Rays
  • Gamma Ray Astronomy
  • Gamma Ray Bursts
  • High Energy Neutrino Astronomy
  • Multimessenger and Gravitational wave
  • Time-domain astronomy, transient phenomena
  • Dark Matter searches
  • Nature and Origin of Dark Matter
  • Future detectors

The conference will include both review and contributed talks and will be organized in plenary sessions only.

For additional questions, please see the conference website.

Meeting Dates: 2026 Mar 23 - 27
Meeting Location: Oxford, UK

We will be hosting a major international workshop on black hole accretion and jet formation at The University of Oxford between March 23-27, 2026. Our goal is to address the scaling of these phenomena across the mass and accretion rate spectra. We will consider all aspects of accreting black holes, including black hole transients, X-ray binaries, tidal disruption events, active galactic nuclei and the role of black hole accretion physics in cosmological simulations.

We aim to bring a new perspective to these problems, and hope to bring together the above diverse communities which too rarely intersect, and to do so in an engaging and efficient way.

We will have an in-person capacity of around 100, and to stream all talks and discussions online for free.

SOC: Rob Fender, Sera Markoff, Francesca Panessa, Jiri Svoboda, Erin Kara (to be expanded)

To express interest and be added to the mailing list for the meeting, please send a simple email to: blackholes2026[AT]physics[DOT]ox[DOT]ac[DOT]uk

For additional questions, please see the conference website.

Meeting Dates: 2026 Mar 24 - 26
Meeting Location: Torremolinos, Malaga (Spain)
Registration Deadline: 2026 Jan 15
Abstract Deadline: 2026 Jan 31

The Transient High-Energy Sky and Early Universe Surveyor (THESEUS) is a mission concept, developed by a large international collaboration, under study by ESA since 2018 and currently one of the three candidate M7 missions for a launch in the late '30s. THESEUS aims at fully exploiting Gamma-Ray Bursts for investigating the Cosmic Dawn and as key phenomena for multi-messenger astrophysics. More in general, thanks to its unprecedented combination of scientific instruments and mission profile, the mission will provide substantial advances to many fields of time-domain astrophysics, also offering to the scientific community a Guest Observer programme.

In all these respects, THESEUS will show an ideal synergy with the very large astronomical facilities of the future working in the electromagnetic (radio, optical, X/gamma rays, VHE) and multi-messenger domains (GWs, neutrinos).

The scientific programme of this conference will include both review talks on THESEUS science case, instrumentation and mission profile, as well as presentations focused on more general topics in the many research fields that will be impacted by the mission.

Through this conference, we aim at strengthening the involvement of the community in the project and boost even more the synergies being developed between THESEUS and all other facilities operational in the 2030s in the multi-wavelength and muti-messenger domains.

The event is promoted by the THESEUS consortium and the Science Study Team, appointed by ESA in 2023, plus the leading scientific Spanish representatives of the THESEUS collaboration.

We anticipate that, in order to fully exploit the efforts by the presenters and to get a nice collection of short papers on the THESEUS science, we aim at publishing the Proceedings of the conference on a refereed journal.

Science Organizing Committee:

L. Amati (INAF-OAS Bologna, IT; CHAIR), M. D. Caballero-Garcia (IAA-CSIC, Spain; co-chair), D. Gotz (CEA Saclay, FR; co-chair), P. O'Brien (Univ. Leicester, UK; co-chair), A. Santangelo (IAAT, DE; co-chair); E. Bozzo (University of Geneva, CH), A. Castro-Tirado (IAA Granada, ES), L. Christensen (University of Copenhagen, Denmark), R. Ciolfi (INAF - Padova Observatory, IT), D. Gotz (CEA, FR), P. O'Brien (University of Leicester, UK), G. Stratta (INAF-OAS Bologna, IT), N. Tanvir (University of Leicester, UK), S. Vergani (Observatorie de Paris, FR).

Local Organizing Committee:

M. D. Caballero-Garcia (IAA-CSIC), A. J. Castro-Tirado (IAA-CSIC, Chair), C. Perez del Pulgar (Univ. de Malaga) and R. Sanchez-Ramirez (IAA-CSIC, co-chair)

For additional questions, please see the conference website.

Meeting Dates: 2026 Jun 8 - 11
Meeting Location: Elche, Spain
Registration and Abstract Open: 2026 Jan

Save the Date! More information coming soon!

The symposium is the seventh meeting in the series "The X-ray Universe".

This conference series is aimed at encompassing a broad range of high-energy astrophysics topics, from solar system studies to cosmology and at providing a showcase for results and discoveries from XMM-Newton as well as from the variety of other current missions. The scientific potential of future mission projects and the evolution of the scientific analysis landscape will be further topics for discussion.

For additional questions, please see the conference website.

Meeting Dates: 2026 Jun 15 - 19
Meeting Location: Yerevan, Armenia
Registration Deadline: 2026 Mar 31

The start of the 21st century was marked with the advent of all-sky surveys at all wavelengths, from radio to X-ray and Gamma-ray. Together with recent breakthroughs in large-volume ice neutrino detectors, and the successful detection of astrophysical gravitational waves, these pivotal advancements are giving rise to multi-messenger astrophysics setting the stage for new theoretical challenges. The goal of the conference is to review and discuss recent achievements in high energy astrophysics and cosmology in the context of these developments. The meeting will focus on astrophysics of compact objects on all mass scales, formation and growth of supermassive black holes, non-stationary and transient phenomena in the vicinity of compact objects and selected themes of physical cosmology. The physics of jets in blazars and gamma-ray bursts will be also addressed, exploring the mechanisms and consequences of these extreme events.

This meeting is the second one in the conference series started in 2024, building on the themes and discussions initiated during HEACOSS-2024

The topics covered at the meeting will include:

  • Sky surveys from radio to X/gamma-ray bands
  • Physics of AGN, QSO, blazars - clues from sky surveys
  • TDEs and other extragalactic X-ray transients
  • Gamma-ray bursts
  • Spectral formation near compact objects - clues from X-ray spectroscopy and polarimetry
  • Gravitational wave astronomy
  • Neutrino astronomy
  • Cosmic rays and ultra-high energy gamma-rays
  • Sky surveys in cosmological context
  • Future prospects/missions
  • Data-intensive methods and machine learning in high-energy and multi-messenger astrophysics

The registration fee is €300 (€150 for students), which will cover the admission to scientific sessions, coffee breaks, and registration materials.

For participants from Belarus, Iran, and Russia if you are unable to pay the registration fee or book your hotel with a credit card or bank transfer prior to the meeting, please inform us by writing to heacoss2026[AT]gmail[DOT]com. Such participants will have the option to pay the registration fee in cash at the registration desk upon arrival. Payments should be made in Armenian drams, according to the official exchange rate on the day of payment. If you require a hotel reservation, please inform us accordingly. However, please be advised that hotel room payments must be made upon arrival.

Participants who face significant banking fees may also request to pay the registration fee in cash on site. Please send your request to heacoss2026[AT]gmail[DOT]com. However, please note that the preferred method for paying the registration fee is a bank transfer.

The registration fee collected from participants is utilized to cover the costs of the conference. As we do not have external funding for this meeting, it is crucial that registration fees are paid in full, preferably via bank transfer. We appreciate your understanding and cooperation.

For additional questions, please see the conference website.

Meeting Dates: 2026 Jun 15 - 18
Meeting Location: Bad Honnef, Germany
Abstract/Registration Deadline: 2026 Mar 11

The 858th WE-Heraeus Seminar "Galactic Frontiers 2026: Advancing X-ray Astronomy in a Multiwavelength Universe" will bring together leading and early-career researchers to discuss the latest advances in Galactic X-ray astronomy enabled by missions such as eROSITA, XMM-Newton, Chandra, XRISM and other flagship missions. Topics include, among others, stars and stellar populations in the X-ray domain, diffuse X-ray emission in the interstellar medium, supernova remnants and their role in feedback processes, and the population and evolution of compact objects (white dwarfs, neutron stars, black holes).

A key focus will be the synergy between X-ray studies and observations across the electromagnetic spectrum - from radio to gamma rays - as well as the growing contributions of amateur astronomy networks to wide-field optical searches for extended nebulae and SNRs.

The seminar will be held from 15–18 June 2026 at the Physikzentrum Bad Honnef. The program will include invited overview talks, contributed presentations, poster sessions, and dedicated reporter talks that summarize the key results from selected posters. A concluding excursion to the Effelsberg 100-m Radio Telescope, operated by the Max Planck Institute for Radio Astronomy, is planned. The event is designed to foster multi-wavelength collaboration and to provide a stimulating forum for researchers at all career stages.

Invited review talks and selected papers are planned to be published as refereed proceedings.

Review Talks by:

Christian Schneider (Uni Kiel), Yaël Nazé (Uni Liege), Anna Watts (Uni Amsterdam), Marta Burgay (INAF Cagliari), Robert Fesen (Dartmouth College), Anne Decourchelle (CEA Paris), Steeve Body (New Horizon Team), Rainer Raupach (Capella Team ), Mike Yeung (MPE), Martin Mayer (FAU), Elias Kyritsis (FORTH), Antara Basu-Zych (NASA/UMBC, USA)

Organizers:

Werner Becker (MPE) & Manami Sasaki (FAU)

Scientific Organizing Committee:

Werner Becker (MPE), Panayotis Boumis (NOA), Michael Kramer (MPIfR), Manami Sasaki (FAU), Andrea Merloni (MPE), Jan Robrade (Uni. Hamburg), Axel Schwope (AIP), Beate Stelzer (Uni. Tübingen), Joern Wilms (FAU)

Local Organizing Committee:

Alena Khokhriakova (MPE), Federico Zangrandi (FAU), Mar Canal i Saguer (FAU)

Further information and registration details are available at the conference website.

Meeting Dates: 2026 Jun 29 - Jul 03
Meeting Location: Campus MIL of the University of Montreal (in Montreal, Quebec, Canada)

Held a week before the world-renowned Montreal International Jazz Festival, the conference aims to spotlight the significant progress made in the study of supermassive black holes, addressing open questions and exploring future prospects, particularly in the wake of the latest observations from JWST. Below are the four main themes of the conference:

  • Advanced Techniques for Measuring Supermassive Black Hole Properties
  • Observations of Supermassive Black Holes at teh Event Horizon Scale
  • Feeding and Feedback Processes of Supermassive Black Holes
  • High-Redshift Supermassive Black Hole Formation and Growth
For additional questions, please see the conference website.

Meeting Dates: 2026 Aug 03 - 07
Meeting Location: Klosterneuburg, Vienna, Austria
Abstract Deadline: 2026 Apr 20
Early Registration Deadline: 2026 Jun 15
Late and online-only Registration Deadline: 2026 Jul 25
*** Save the date ***

More information will be available after 2026 Feb 20.

For additional questions, please see the conference website.

Meeting Dates: 2026 Aug 24 - 28
Meeting Location: Heraklion, Crete, Greece
Abstract Deadline: TBD
Registration Deadline: TBD

Tidal Disruption Events and Nuclear Transients in Crete vol. 2 will be held in Heraklion, Crete, Greece on 24-28 August 2026. The conference will be in person at the city center of Heraklion. The aim is to bring together theorists and observers broadly working in the field of Tidal Disruption Events and Nuclear Transients.

The main scientific themes of the conference are:

  • Accretion disk and outflow formation
  • Multiwavelength/multimessenger emission and polarization
  • Radio outflows and jets
  • Variable AGN, Bowen flares, and Ambiguous Nuclear Transients
  • Host galaxy environments, population studies, and event rates
  • Repeating TDEs and Quasi-Periodic Eruptions

Scientific organizing committee:

Kate Alexander; Iair Arcavi; Panos Charalampopoulos; Decker French; Ioannis Liodakis; Brenna Mockler; Nick Stone

Local organizing committee:

Alberto Floris; Dimitris Langis; Ioannis Liodakis;

For additional questions, please see the conference website.

Other Astronomy, Physics and Space Sciences Meetings

Meeting Dates: 2026 Mar 10 - 13
Meeting Location: University of Arizona, Tucson, Arizona, USA
Pre-registration and Abstract Submission Deadline: 2025 Dec 12
Early Registration Deadline: 2026 Jan 15

AstroNuc 2026 will be held on March 10-13, 2026 at the University of Arizona, Tucson, Arizona, USA.

The workshop will bring together observers, theorists and experimentalists working in nuclear astrophysics. Our goal is to discuss advancements in stellar and explosive nucleosynthesis, including their role in enriching galaxies with heavy elements, leveraging insights from recent time domain astronomy initiatives.

JWST and LSST have begun releasing remarkable new data on transients, making an understanding of the nuclear processes in their final stages essential for accurate interpretation. Complementing these efforts, SDSS-V is delivering all-sky spectroscopic observations that provide critical insights into chemical enrichment and evolution. In the coming years, gravitational-wave detections of compact object mergers with LVK and Cosmic Explorer are expected to shed light on the formation of heavy elements and the rate of key nuclear reactions in stars, which will be further constrained in new laboratory measurements. At the same time, the growing use of machine learning in both data analysis and simulations, which is manifested in new institutes like SkAI and CosmicAI, and a growing number of publications, is opening new avenues for nuclear astrophysics research. Together, these recent and anticipated advances are transforming our ability to study nucleosynthesis in stars and stellar explosions.

We will review the current state of the field and explore opportunities for new collaborations, building a bridge across the different communities. Through a combination of presentations, hands-on introductory sessions, and discussions, we will identify the most pressing open questions, highlight key issues such as nuclear reaction rate uncertainties and computational challenges, and develop strategies to address them from a multidisciplinary perspective, with a particular focus on the use of machine learning approaches.

Amongst the topics of interest are: stellar archeology, chemical evolution, machine learning applications, time domain astronomy, reaction rates measurements, mass measurements, r-process, s-process, i-process, core collapse supernovae, type 1a supernovae, and more...

For additional questions, please see the conference website.

Meeting Dates: 2026 Mar 23 - 27
Meeting Location: Pasadena, CA
Registration Deadline: TBD

As we enter the era of multi-wavelength and multi-messenger surveys with rich but disparate datasets, there is a growing need to revisit the software infrastructure required to push the limits of time-domain science. Building on the legacy from the past decades of optical time-domain surveys, the Vera C. Rubin Observatory has opened its eye to the dynamic sky and will unleash a wave of millions of alerts per night. High-energy space missions such as Fermi and the Neil Gehrels Swift Observatory are capturing the most energetic astrophysical explosions. The Nancy Grace Roman Space Telescope, which will launch no later than May 2027, is set to unveil the transient universe in the infrared (IR). New surveys on the horizon such as DSA-2000 and ULTRASAT will push our multi-wavelength survey coverage into the radio and near-UV. Now is therefore the ideal time to revisit and address the software infrastructure needed to pursue breakthrough science enabled by low-latency alerts, multi-wavelength/messenger discovery, machine learning, and science platforms / alert brokers / marshals.

We invite the time-domain community to a four-day Hot-wiring the Transient Universe meeting hosted by the RAPID Project Infrastructure Team at Caltech. In this meeting, we will address the following key questions:

  • What have we learned from existing alert streams and Rubin alerts?
  • Are we ready for alerts from Roman and beyond?
  • How do we optimize transient discovery with multi-wavelength and multi-messenger alert streams?
  • How do we effectively utilize machine learning for time-domain science?
  • What physics of stellar explosions/eruptions/variability can be revealed with rapid, multi-wavelength/messenger observations?

The science topics in the meeting will focus on relativistic explosions, stellar variables, supermassive black hole transients, IR / “gap” transients, and supernovae.

The meeting will occur March 23 through 26, 2026. A list of invited speakers will be provided soon. Registration and abstract submission will be open in Early October 2025.

If you have any questions, you can email us at rapid[AT]ipac[DOT]caltech[DOT]edu.

SOC: Ryan Lau (co-chair, Caltech/IPAC), Matthew Graham (co-chair, Caltech), Azalee Bostroem (U Arizona), Ilaria Caiazzo (Inst. Sci. Tech., Austria), Wen-Fai Fong (Northwestern), Sebastian Gomez (U Texas, Austin), Mansi Kasliwal (Caltech), Ashish Mahabal (Caltech), Anais Moller (Swinburne U., Australia), Rob Seaman (U Arizona)

LOC: Schuyler Van Dyk (chair), Frank Aragon, Wendy Burt, David Imel, Jacob Jencson, Sean Kindt, Ryan Lau

For additional questions, please see the conference website.

Meeting Dates: 2026 Apr 13 - 16
Meeting Location: Vienna, Austria
Abstract Deadline: TBD
Registration Deadline: TBD

We are delighted to announce the latest in the series of ESA-sponsored conferences, in collaboration with STScI, which highlight the scientific impact of the Hubble and James Webb Space Telescopes. With both missions in science operations, we are unlocking many of the mysteries of the Universe, in what is a tremendously exciting time for astronomy.

A key topic that underpins a broad range of current research is the chemical evolution of the Universe, from the production of heavy elements in the first stars, the enrichment over successive generations of star-formation and stellar death in galaxies, and the complex chemistry in the interstellar medium and stellar environments which build-up the molecules we are now probing in exoplanet and solar system planetary atmospheres.

Hubble has recently celebrated its landmark 35th anniversary of its launch. The Hubble mission, a multi-decade partnership between NASA and ESA, continues to surprise and excite us with its discoveries, and its ultraviolet-visible capabilities will remain unique for years to come. The NASA/ESA/CSA Webb mission, now into its fourth year of science operations, is also transforming the astronomical landscape with its unprecedented infrared imaging and spectroscopy. An excellent example of how the two missions are working in scientific synergy is the ongoing Rocky Worlds Director’s Discretionary Time program.

The science program will feature a combination of invited and contributed talks, posters, and breakout discussions with the objectives to:

  • Highlight the latest Hubble and Webb results in studies of chemical evolution and nucleosynthesis over all scales, from understanding the chemistry of nearby protoplanetary disks and planetary atmospheres, to the earliest enrichment by the first galaxies and stars.
  • Explore what the most pressing scientific questions are for Hubble and Webb in the coming decade, and where their unique capabilities will have the most impact.
  • Identify new opportunities of where Hubble and Webb can work in concert with other space-borne and ground-based facilities, to enable new scientific breakthroughs.

    • Scientific organizing committee:

    Chris Evans, Chair (ESA); Angela Adamo (Stockholm University); Sudeshna Boro Saikia (University of Vienna); Annalisa De Cia (European Southern Observatory); Ylva Götberg (Institute of Science & Technology Austria); Maximillian Günther (ESA); Arshia Jacob (University of Cologne); Chiaki Kobayashi (University of Hertfordshire); Mercedes López-Morales (STScI); Pascal Oesch (University of Geneva); Els Peeters (Western University); Colin Snodgrass (University of Edinburgh)

    Local organizing committee:

    Paule Sonnentrucker, co-chair (ESA);Manuel Güdel, co-chair (University of Vienna); Vera Flasch (University of Vienna); Maria Gunnarsson (ESA); Sherita Hanna (STScI); Oliver Herbort (University of Vienna); Jean-Baptiste Regnard (AURA/STScI for ESA); Simon Schleich (University of Vienna); Gwenaëlle Van Looveren (University of Vienna); Sofia Velasco (ATG for ESA)

    For additional questions, please see the conference website.

    Meeting Dates: 2026 May 18 - 22
    Meeting Location: Finland, Turku
    Deadline for Abstracts and Grants: 2025 Dec 1
    Deadline for Registration: 2026 Mar 1

    In the modern era, time-domain observations are one of the main driving forces in astronomy, with the proliferation of large all-sky surveys, fast-response instrumentation, and global multi-wavelength and multi-messenger networks dedicated to catching astrophysical transient events. In the near future, we will be probing the Universe much deeper and in finer detail than ever before, with the unprecedented light-gathering power and angular resolution promised by the next generation of extremely large telescopes. As we are entering this exciting new era, transient astrophysics must also seize new opportunities by exploring hitherto uncharted regions of parameter space – in depth, time cadence, wavelength coverage, and spectroscopic and spatial resolution – and by leveraging cutting-edge technologies and instrumentation, along with novel techniques in observations, theory, and analysis. A strong synergy between observations and theory will certainly drive the field forward.

    The landscape of observational astronomy in 2026 and onwards will be a thriving habitat for transient astrophysics. By that time, the Legacy Survey of Space and Time (LSST) at the Vera Rubin Observatory will have started science operations and delivered its first discoveries. This will be concurrent with new transient-optimized instrumentation such as the Son of X-Shooter (SOXS) spectrograph on the ESO New Technology Telescope (NTT). At that time, the community will also be preparing for the LIGO/Virgo/KAGRA O5 observing run with improved capabilities for gravitational wave detections, planned to start in 2027. Within a short couple of years, around 2028, the ESO Extremely Large Telescope (ELT), the first of the giant telescopes, will be commissioned and thus open completely unprecedented opportunities for observations in terms of depth and spatial resolution. During the very active period preceding and following 2026, a number of other facilities, many with significant components for time-domain astronomy, will be commissioned or launched, resulting in an unprecedented coverage of most of the electromagnetic spectrum – and more – by the mid-2030s. These include the Cherenkov Telescope Array (CTA) at very high-energy gamma rays; the Square Kilometer Array (SKA) in the radio; new space missions including UVEX and ULTRASAT in the ultraviolet; the Roman Space Telescope in the optical and near-infrared; THESEUS and NewAthena missions in the high energy domain; and the Laser Interferometer Space Antenna (LISA) in gravitational waves. ESO will also decide on the 2040s post-ELT projects between 2027-2028, which will make the Symposium timely for this discussion as well.

    As exemplified by the gravitational wave event 170817 and the accompanying kilonova, rapid-timescale response on a global scale is critical for the fastest-evolving transients. The future facilities are expected to improve on this, along with a significant increase in the depth of observations. One example of an outstanding challenge in transient astrophysics is the identification of high-redshift supernovae associated with population III stars. Synergy between wide-field surveys and extremely large telescopes will be crucial for probing these events and their host stellar populations. Coordinated multiwavelength observations will also illuminate the nature of transients such as superluminous supernovae and fast blue optical transients (FBOTs), potentially powered by magnetars or central engines. Alongside these advancements, novel theoretical approaches are essential for interpreting and guiding the observations, addressing unresolved questions such as gamma-ray burst energy extraction and jet formation, and the origins of fast radio bursts.

    With this Symposium, we thus aim to address the challenges presented by this new era by gathering together a balanced ensemble of researchers worldwide, with expertise on transient phenomena including supernovae, kilonovae, tidal disruption events, gamma-ray bursts, X-ray transients, fast radio bursts and various types of rare transients with debated origins, over a wide range of wavelengths from radio to infrared, optical and UV to X-rays and gamma-rays as well as in the gravitational-wave and neutrino domains. We will seek the insights of experts on a range of observational techniques from spectroscopy and polarimetry to interferometric observations providing the highest available angular resolution, as well as experts on modelling and simulations to explain the observations and to anticipate future discoveries of new types of transient events. As the new facilities are bound to bring about a flood of data that mere humans will have a hard time sifting through to find the most interesting events, we also aim to cover novel machine-learning methods and broker services that can optimize this process. The symposium will therefore consist of presentations providing a multi-wavelength and multimessenger view of the transient field, making use of the already-existing state-of-the-art instrumentation while looking into the technologies available in the near future and the best ways of using them. They will include highlights on intriguing individual events and their interpretations, as well as theoretical predictions showing us what to expect and where to look next, in preparation for a new era of discovery.

    Being at the intersection of observations, theory, and computational techniques, this symposium offers a comprehensive overview and preview of the field, which will benefit the community and drive the science and technology forward. New insights will be emerging and collaborations forged, which in the end will be crucial for ensuring the optimum use of future facilities.

    Key Topics:

    • Multiwavelength and multimessenger observations of extragalactic transients
    • Rates and physical mechanisms of supernovae, tidal disruption events, and related transients
    • Physics of the transients and their progenitor systems, remnants, and host galaxies
    • Transient surveys, statistical analyses and machine-learning techniques
    • Opportunities and challenges offered by new ground-based and space instrumentation with time-domain coverage
    • Intermediate-sized telescopes in the era of extremely large telescopes
    • Strategies in rapid and multiwavelength observations of fast transients across all wavebands from gamma-ray bursts to fast radio bursts
    • Novel theoretical approaches in multi-dimensional explosion modeling
    • Central engine activities, accretions, and shocks as power sources in transients
    • Citizen science and community involvement in transient science

    For additional questions, please see the conference website.

    Meeting Dates: 2025 Aug 01 - 09
    Meeting Location: Florence, Italy
    Abstract Deadline: 2026 Feb 13

    Approximately 150 meetings covering the fields of COSPAR Scientific Commissions (SC), Panels, and Task Groups, with SC E: Research in Astrophysics from Space offering several relevant sessions, which can be found at this link.

    Selected papers published in Advances in Space Research and Life Sciences in Space Research, fully refereed journals with no deadlines open to all submissions in relevant fields.

    For additional questions, please see the conference website.

    Meeting Dates: 2027 Jan 04 - Mar 11
    Meeting Location: Kavli Institute for Theoretical Physics
    Application Primary Deadline: 2025 Nov 28 (rolling deadline until filled)

    Coordinators: Greg Bryan, Christoph Pfrommer, Mateusz Ruszkowski, and Ellen Zweibel

    Scientific Advisors: Eve Ostriker, Eliot Quataert, and Volker Springel

    Cosmic rays (CRs)—the most energetic particles in the Universe—have recently emerged as an essential agent shaping diverse astrophysical systems. Interactions between CRs and plasma exhibit parallels across the interstellar (ISM), circumgalactic (CGM), and intracluster (ICM) media. Advancing our understanding of these key but incompletely understood processes, particularly CR transport, is essential for assessing the impact of CRs across these environments.

    This program will strengthen connections between distinct scientific communities studying CRs across scales — from the solar wind to galaxy clusters — with an emphasis on CR-plasma interactions. Although these communities are grounded in shared physical principles, they have largely evolved in parallel. The program will promote dialogue between these groups to deepen understanding of CRs' role in shaping diverse astrophysical systems.

    The program will examine the following themes:

    • CRs in turbulent plasmas: How do CR-driven instabilities, wave damping, and intermittent turbulence regulate CR transport?
    • CRs in the ISM: How do supernovae accelerate CRs, and how do CRs shape ISM chemistry and star formation?
    • CR feedback in galaxies and clusters: How do CRs from supernovae and black hole jets drive galactic winds and shape the CGM and ICM?
    • Astrophysical tests of CR transport: How can modeling of individual objects (supernovae, star clusters, radio filaments, galaxies) constrain CR physics?
    • Solar energetic particles: How do we model and constrain particle acceleration and solar wind-ISM interactions?
    • Laboratory tests: How can laser plasma experiments inform CR propagation and acceleration models?

    For additional questions, please see the conference website.

    Astronomy-related Technology and Instrumentation Meetings

    Astronomy-related Physics, Computational, Data Analysis,Software or Statistics Meetings

    Meeting Dates: 2026 Mar 9 - 12
    Meeting Location: Baltimore, MD, USA
    Abstract/Registration Deadline: 2026 Feb 6

    Join us for the second annual Language AI in the Space Sciences workshop, an interdisciplinary gathering exploring the role of natural language processing and artificial intelligence in space science and astronomy. Unlike a typical scientific conference dominated by formal talks, this workshop is designed to foster creativity, exchange, and collaboration. Alongside a selection of presentations, participants will have substantial unstructured time for hands-on exploration, open discussions, and collaborative projects. Co-organized by the Data Science Mission Office (DSMO) at the Space Telescope Science Institute (STScI), the European Space Agency (ESA), and the Astrophysics Data System (ADS), the workshop invites astronomy researchers, AI/NLP specialists, software engineers, and domain experts to come together in an environment that values experimentation and informal dialogue as much as formal presentations. The aim is to spark new ideas and cross-disciplinary partnerships, while lowering barriers to participation and encouraging practical engagement with emerging tools and methods.

    Further information and registration details are available at the conference website.

    Meeting Dates: 2026 Apr 20 - 24
    Meeting Location: Yokohama, Japan
    Abstract Submission Deadline: 2025 Dec 22
    Early Registration Deadline: 2026 Mar 26

    We are pleased to announce the 15th International Conference on High Energy Density Laboratory Astrophysics (HEDLA), to be held April 20 - 24, 2026, at Pacifico Yokohama in Yokohama, Japan. This conference will be co-located with the International Conference on High Energy Density Science (HEDS) as part of the Optics and Photonics International Congress (OPIC).

    HEDLA is a topical conference series that began in 1996 and has run approximately every other year since then. The goal is to use or develop laboratory experiments to understand high-energy-density phenomena in the universe.

    HEDS covers the high-energy-density sciences with high-power lasers and their applications.

    Scope:

    High-power lasers and pulsed-power facilities enable the creation of extreme states of pressure and temperature well beyond those attainable under terrestrial conditions. Such high-energy-density states provide a powerful platform for exploring fundamental processes in astrophysical plasmas, which remain among the most compelling subjects in modern science. Laboratory astrophysics, in particular, offers a unique and complementary research methodology, advancing our understanding of astrophysical phenomena through controlled experiments in conjunction with astronomical observations and theoretical or simulation studies, while fostering collaboration across diverse scientific communities. Proposed Topics include, but are not limited to, the following areas of high-energy-density laboratory astrophysics:

    Proposed Topics:

    • Fluid and Collisional Plasma Dynamics: jets, turbulence, dynamos, instabilities
    • Collisionless Plasmas and Particle Acceleration: shocks, magnetic reconnection, kinetic processes
    • Transport and Atomic/Radiative Processes: heat conduction, anomalous resistivity, diffusion, radiative transport, opacity, spectral line shapes, photoionization
    • Dense Plasma Physics: equations of state, warm dense matter, planetary interiors
    • New Frontiers in High-Energy-Density Science: quantum electrodynamics effects, pair plasmas, nuclear astrophysics, emerging experimental facilities, and advanced computing

    Conference Program:

    • Sessions will begin at 9:00 on April 20 (Mon)
    • HEDLA/HEDS Dinner on April 21 (Tue)
    • OPIC Conference Banquet on April 22 (Wed)
    • Sessions will end around 17:00 on April 24 (Fri)

    Scientific Program:

    • Invited Talk: 20 min talk + 5 min discussion
    • Contributed Talk: 12 min talk + 3 min discussion
    • Poster panel size is 210 cm (height) x 90 cm (width).

    Confirmed Invited Speakers:

    Fabio BACCHINI; Xue-Ning BAI; Archie BOTT ; Tilo DOPPNER; Toshihiro FUJII ; Gianluca GREGORI

    Fan GUO; Guang-yue HU; Hantao JI; Timothy JOHNSON; Daiji KATO; Yohei KAWAZURA; Yasuhiro KURAMITSU; Martin LEMOINE; Guillaume LOISEL; Sabrina NAGEL; Shuichi MATSUKIYO; Stefano MERLINI; Yosuke MIZUNO; Luca ORUSA; Gabriel RIGON; Dongsu RYU; Haruhiko SAITO; Joao SANTOS; Derek SCHAEFFER; Yinren SHOU; Masaomi TANAKA; Petros TZEFERACOS; Vicente VALENZUELA-VILLASECA; Suming WENG; Hiroya YAMAGUCHI; Weipeng YAO; Dawei YUAN ; Tim ZIEGLER;

    Committee:

    Conference Chair:

    Ryosuke KODAMA (U Osaka)

    Takayoshi SANO (U Osaka)

    HEDLA Scientific Organizing Committee:

    Mandy Bethkenhagen (LULI); Dan CASEY (LLNL); Alexis CASNER (U Bordeaux); Gilbert COLLINS (U Rochester); Tilo DOPPNER (LLNL); Forrest DOSS (LANL); Frederico FIUZA (IST); Gianluca GREGORI (U Oxford); Natsumi IWATA (U Osaka); Hantao JI (Princeton U); Maria Gatu Johnson (MIT); Marcus KNUDSON (SNL); Ryosuke KODAMA (U Osaka) ; Carolyn KURANZ (U Michigan); Ivan OLEYNIK (U South Florida); Hye-Sook PARK (LLNL); Tomek PLEWA (FSU); Bruce REMINGTON (LLNL); Dmitri RYUTOV (LLNL); Youichi SAKAWA (U Osaka); Takayoshi SANO (U Osaka); Derek SCHAEFFER (UCLA); Petros TZEFERACOS (U Rochester); Feilu WANG (CAS);

    Program Committee:

    Yutaka Ohira (U Tokyo)

    Youichi SAKAWA (U Osaka)

    Takayoshi SANO (U Osaka) Chair

    For additional questions, please see the conference website or email to hedla2026 (at) ile.osaka-u.ac.jp.

    Meeting Dates: 2026 May 26 - 30
    Meeting Location: Traverse City, MI, USA
    Registration Deadline: 2026 Apr (TBA)

    Radioactive nuclei play a significant role in many current astrophysical pursuits, from the origin of the elements to the driving of emissions from supernovae (56Ni) and kilonovae (r-process radioactivity). Radioactive nuclei are crucial for direct studies of galactic enrichment (7Be, 26Al, 44Ti, 60Fe, 99Tc, 244Pu) and stellar explosions (56Ni,44Ti). Stars and their explosions, galaxies and their evolving interstellar medium, and the origin of the solar system are among the targeted astrophysical objects. Stardust, meteorites, ocean floor deposits, cosmic-rays, and gamma-ray spectroscopy provide a rich variety of astronomy to exploit the inherent power of radioactivity. Investigation tools range from numerical models, astronomical instrumentation, and laboratory experiments to derive material compositions and nuclear reaction rates.

    The aim of the conference is to bring together researchers interested in the significant role radioactive nuclei play in the cosmos and particularly with respect to questions in astrophysics. The scientific program will cover topics related to the role of radioactivity within galactic chemical evolution, cosmochemistry, the origin of elements, and multi-messenger astronomy.

    This is the latest in a series of conferences organized every couple of years and is open to researchers in the various relevant fields including nuclear physics experiment and theory, astronomy, and astrophysics. The purpose of the conference is to provide all participants and particularly early-career researchers with an opportunity to present their work. The format of the meeting will be designed to foster exchange of ideas, learning, and discussion among participants.

    The scientific topics include:

    • Nucleosynthetic processes
    • Early Solar System record
    • Stardust and presolar grains
    • AI/ML techniques in data analysis and modeling
    • Experiments with, and observations of radioactive isotopes
    • Gamma-ray astronomy
    • Meteorites and their isotopic signatures
    • Metal-poor stars and stellar remnants
    • Modeling of supernovae and neutron star mergers
    • Cosmology and Big Bang nucleosynthesis
    • Radioisotopes in planetary formation, evolution, and heat production.

    For additional questions, check out the conference website.

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