Pulsars, transients and relativistic astrophysics

High-resolution VLA low radio frequency observations of the Perseus cluster: radio lobes, mini-halo and bent-jet radio galaxies

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP)

Authors:

Marie-Lou Gendron-Marsolais, Julie Hlavacek-Larrondo, Reinout J van Weeren, Lawrence Rudnick, Tracy E Clarke, Biny Sebastian, Tony Mroczkowski, Andrew C Fabian, Katherine M Blundell, Evan Sheldahl, Kristina Nyland, Jeremy S Sanders, Wendy M Peters, Huib T Intema

Abstract:

We present the first high-resolution 230-470 MHz map of the Perseus cluster obtained with the Karl G. Jansky Very Large Array. The high dynamic range and resolution achieved has allowed the identification of previously-unknown structures in this nearby galaxy cluster. New hints of sub-structures appear in the inner radio lobes of the brightest cluster galaxy NGC 1275. The spurs of radio emission extending into the outer X-ray cavities, inflated by past nuclear outbursts, are seen for the first time at these frequencies, consistent with spectral aging. Beyond NGC 1275, we also analyze complex radio sources harbored in the cluster. Two new distinct, narrowly-collimated jets are visible in IC 310, consistent with a highly-projected narrow-angle tail radio galaxy infalling into the cluster. We show how this is in agreement with its blazar-like behavior, implying that blazars and bent-jet radio galaxies are not mutually exclusive. We report the presence of filamentary structures across the entire tail of NGC 1265, including two new pairs of long filaments in the faintest bent extension of the tail. Such filaments have been seen in other cluster radio sources such as relics and radio lobes, indicating that there may be a fundamental connection between all these radio structures. We resolve the very narrow and straight tail of CR 15 without indication of double jets, so that the interpretation of such head-tail sources is yet unclear. Finally, we note that only the brightest western parts of the mini-halo remain, near NGC 1272 and its bent double jets.

JWST detection of heavy neutron capture elements in a compact object merger

Authors:

Andrew Levan, Benjamin Gompertz, Om Sharan Salafia, Mattia Bulla, Eric Burns, Kenta Hotokezaka, Luca Izzo, Gavin Lamb, Daniele Malesani, Samantha Oates, Maria Ravasio, Alicia Rouco Escorial, Benjamin Schneider, Nikhil Sarin, Steve Schulze, Nial Tanvir, Kendall Ackley, Gemma Anderson, Gabriel Brammer, Lise Christensen, Vikram Dhillon, Phil Evans, Michael Fausnaugh, Wen-fai Fong, Andrew Fruchter, Chris Fryer, Johan Fynbo, Nicola Gaspari, Kasper Heintz, Jens Hjorth, Jamie Kennea, Mark Kennedy, Tanmoy Laskar, Giorgos Leloudas, Ilya Mandel, Antonio Martín-Carrillo, Brian Metzger, Matt Nicholl, Anya Nugent, Jesse Palmerio, Giovanna Pugilese, Jillian Rastinejad, Lauren Rhodes, Andrea Rossi, Stephen Smartt, Heloise Stevance, Aaron Tohuvavohu, Alexander van der Horst, Susanna Vergani, Darach Watson, Thomas Barclay, Kornpob Bhirombhakdi, Elme Breedt, Alice Breeveld, Alex Brown, Sergio Campana, Paolo D'Avanzo, Valerio D'Elia, Massimiliano De Pasquale, Martin Dyer, Duncan Galloway, James Garbutt, Matthew Green, Dieter Hartmann, Pall Jakobsson, Paul Kerry, Danial Langeroodi, James Leung, Stuart Littlefair, James Munday, Paul O'Brien, Steven Parsons, Ingrid Pelisoli, Dave Sahman, Ruben Salvaterra, Gianpiero Tagliaferri, Christina Thöne, Antonio de Ugarte Postigo, Boris Sbarufatti, Ashley Chrimes, Danny Steeghs, David Kann

Multimessenger science opportunities with mHz gravitational waves

Authors:

John Baker, Zoltán Haiman, Elena Maria Rossi, Edo Berger, Niel Brandt, Elmé Breedt, Katelyn Breivik, Maria Charisi, Andrea Derdzinski, Daniel J D'Orazio, Saavik Ford, Jenny E Greene, J Colin Hill, Kelly Holley-Bockelmann, Joey Shapiro Key, Bence Kocsis, Thomas Kupfer, Shane Larson, Piero Madau, Thomas Marsh, Barry McKernan, Sean T McWilliams, Priyamvada Natarajan, Samaya Nissanke, Scott Noble, E Sterl Phinney, Gavin Ramsay, Jeremy Schnittman, Alberto Sesana, David Shoemaker, Nicholas Stone, Silvia Toonen, Benny Trakhtenbrot, Alexey Vikhlinin, Marta Volonteri

Abstract:

LISA will open the mHz band of gravitational waves (GWs) to the astronomy community. The strong gravity which powers the variety of GW sources in this band is also crucial in a number of important astrophysical processes at the current frontiers of astronomy. These range from the beginning of structure formation in the early universe, through the origin and cosmic evolution of massive black holes in concert with their galactic environments, to the evolution of stellar remnant binaries in the Milky Way and in nearby galaxies. These processes and their associated populations also drive current and future observations across the electromagnetic (EM) spectrum. We review opportunities for science breakthroughs, involving either direct coincident EM+GW observations, or indirect multimessenger studies. We argue that for the US community to fully capitalize on the opportunities from the LISA mission, the US efforts should be accompanied by a coordinated and sustained program of multi-disciplinary science investment, following the GW data through to its impact on broad areas of astrophysics. Support for LISA-related multimessenger observers and theorists should be sized appropriately for a flagship observatory and may be coordinated through a dedicated mHz GW research center.

Multimessenger science opportunities with mHz gravitational waves

Authors:

John Baker, Zoltán Haiman, Elena Maria Rossi, Edo Berger, Niel Brandt, Elmé Breedt, Katelyn Breivik, Maria Charisi, Andrea Derdzinski, Daniel J D'Orazio, Saavik Ford, Jenny E Greene, J Colin Hill, Kelly Holley-Bockelmann, Joey Shapiro Key, Bence Kocsis, Thomas Kupfer, Shane Larson, Piero Madau, Thomas Marsh, Barry McKernan, Sean T McWilliams, Priyamvada Natarajan, Samaya Nissanke, Scott Noble, E Sterl Phinney, Gavin Ramsay, Jeremy Schnittman, Alberto Sesana, David Shoemaker, Nicholas Stone, Silvia Toonen, Benny Trakhtenbrot, Alexey Vikhlinin, Marta Volonteri

Multimessenger science opportunities with mHz gravitational waves

Authors:

John Baker, Zoltán Haiman, Elena Maria Rossi, Edo Berger, Niel Brandt, Elmé Breedt, Katelyn Breivik, Maria Charisi, Andrea Derdzinski, Daniel J D'Orazio, Saavik Ford, Jenny E Greene, J Colin Hill, Kelly Holley-Bockelmann, Joey Shapiro Key, Bence Kocsis, Thomas Kupfer, Shane Larson, Piero Madau, Thomas Marsh, Barry McKernan, Sean T McWilliams, Priyamvada Natarajan, Samaya Nissanke, Scott Noble, E Sterl Phinney, Gavin Ramsay, Jeremy Schnittman, Alberto Sesana, David Shoemaker, Nicholas Stone, Silvia Toonen, Benny Trakhtenbrot, Alexey Vikhlinin, Marta Volonteri

Abstract:

LISA will open the mHz band of gravitational waves (GWs) to the astronomy community. The strong gravity which powers the variety of GW sources in this band is also crucial in a number of important astrophysical processes at the current frontiers of astronomy. These range from the beginning of structure formation in the early universe, through the origin and cosmic evolution of massive black holes in concert with their galactic environments, to the evolution of stellar remnant binaries in the Milky Way and in nearby galaxies. These processes and their associated populations also drive current and future observations across the electromagnetic (EM) spectrum. We review opportunities for science breakthroughs, involving either direct coincident EM+GW observations, or indirect multimessenger studies. We argue that for the US community to fully capitalize on the opportunities from the LISA mission, the US efforts should be accompanied by a coordinated and sustained program of multi-disciplinary science investment, following the GW data through to its impact on broad areas of astrophysics. Support for LISA-related multimessenger observers and theorists should be sized appropriately for a flagship observatory and may be coordinated through a dedicated mHz GW research center.