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54 research outputs found

Magnetic Fields in the Milky Way

Author: A. Boulares
A. Fletcher
A. Noutsos
A.G. Bruyn de
A.L. Lazaryan
A.R. Taylor
A.R. Taylor
A.W. Clegg
A.W. Strong
A.W. Strong
B. Ruiz-Granados
B.M. Gaensler
C. Heiles
C. Heiles
C.L. Eck Van
D. Mitra
D. Moss
D.H.F.M. Schnitzeler
D.H.F.M. Schnitzeler
D.H.F.M. Schnitzeler
D.P. Cox
E. Carretti
E. Carretti
E.G. Zweibel
E.M. Berkhuijsen
E.M. Bierman
G. Golup
G. Heald
G. Hinshaw
G.C. Gómez
H. Men
H. Ohno
H. Röttgering
J.A. Green
J.C. Brown
J.C. Brown
J.H. Simonetti
J.J. Condon
J.L. Han
J.L. Han
J.L. Han
J.L. Han
J.L. Han
J.M. Stil
J.P. Vallee
J.P. Vallée
J.P. Vallée
J.P. Vallée
K. Ferrière
K. Ferrière
K.M. Rae
K.T. Chyży
L. Fauvet
L. Fauvet
L. Page
L. Xiao
M. Haverkorn
M. Haverkorn
M. Haverkorn
M. Haverkorn
M. Haverkorn
M. Iacobelli
M. Simard-Normandin
M. Wolleben
M. Wolleben
M. Wolleben
M.-A. Miville-Deschênes
M.A. Brentjens
M.A. Malkov
M.D. Pavel
M.D. Pavel
M.S. Pshirkov
P. Frick
P.C. Frisch
P.P. Kronberg
R. Beck
R. Beck
R. Jansson
R. Jansson
R. Jansson
R. Stepanov
R.C. Thomson
R.J. Rand
R.M. Crutcher
R.N. Manchester
S. Johnston
S. Nishiyama
S.A. Mao
S.A. Mao
T. Nota
T. Oosterloo
T.A.T. Spoelstra
T.R. Jaffe
T.R. Jaffe
V.L. Fish
X.H. Sun
X.H. Sun
X.H. Sun
X.Y. Gao
Publication venue: 'Springer Science and Business Media LLC'
Publication date: 02/06/2014
Field of study

This chapter presents a review of observational studies to determine the magnetic field in the Milky Way, both in the disk and in the halo, focused on recent developments and on magnetic fields in the diffuse interstellar medium. I discuss some terminology which is confusingly or inconsistently used and try to summarize current status of our knowledge on magnetic field configurations and strengths in the Milky Way. Although many open questions still exist, more and more conclusions can be drawn on the large-scale and small-scale components of the Galactic magnetic field. The chapter is concluded with a brief outlook to observational projects in the near future.Comment: 22 pages, 5 figures, to appear in "Magnetic Fields in Diffuse Media", eds. E.M. de Gouveia Dal Pino and A. Lazaria

arXiv.org e-Print Archive

Crossref

Radboud Repository

Magnetoluminescence

Author: A. Hewish
A. Levinson
A. Rudy
A. Spitkovsky
A.A. Philippov
A.E. Broderick
A.P. Marscher
A.Y. Chen
B. Cerutti
B. Cerutti
B. Cerutti
B.L. Fanaroff
C. Kouveliotou
C. Thompson
C. Thompson
C.A. Wilson-Hodge
C.F. Kennel
D. Biskamp
D. Kagan
D. Lohse
D.A. Uzdensky
D.A. Uzdensky
D.L. Meier
D.R. Lorimer
E. Beltrami
E. Priest
E.N. Parker
F. Aharonian
F. Guo
F. Yuan
G. Madejski
G. Reber
G.R. Burbidge
G.R. Werner
H.K. Moffatt
H.K. Moffatt
H.P. Furth
I.F. Mirabel
J. Albert
J. Aleksić
J. Arons
J. Arons
J. Zrake
J.B. Taylor
J.B. Taylor
J.F. Drake
J.G. Kirk
J.J. Hester
J.J. Hester
K. Hurley
K. Hurley
K. Nalewajko
L. Sironi
L. Sironi
L. Sironi
L. Sironi
M. Ackermann
M. Hoshino
M. Hoshino
M. Hoshino
M. Lyutikov
M. Lyutikov
M. Schmidt
M.A. Belyaev
M.A. Riquelme
M.C. Begelman
M.C. Begelman
M.C. Weisskopf
M.J. Rees
M.J. Reid
M.N. Rosenbluth
M.P. Brenner
M.W. Kunz
P.G. Tait
P.M. Bellan
R. Blandford
R. Buehler
R. Giacconi
R.D. Blandford
R.D. Blandford
R.D. Blandford
R.W. Klebesadel
S. Chandrasekhar
S. Childress
S. Mereghetti
S. Zenitani
S.E. Boggs
S.I. Syrovatskii
S.S. Komissarov
S.S. Komissarov
S.S. Komissarov
T. Gold
T.W. Speiser
V. Arnol’d
V. Zhdankin
V.F. Hess
V.L. Fish
V.S. Imshennik
W. Horton
W. Max-Moerbeck
W.D. Evans
W.E. East
X. Wang
Y. Yuan
Y. Yuan
Publication venue: 'Springer Science and Business Media LLC'
Publication date: 04/05/2017
Field of study

Pulsar Wind Nebulae, Blazars, Gamma Ray Bursts and Magnetars all contain regions where the electromagnetic energy density greatly exceeds the plasma energy density. These sources exhibit dramatic flaring activity where the electromagnetic energy distributed over large volumes, appears to be converted efficiently into high energy particles and gamma-rays. We call this general process magnetoluminescence. Global requirements on the underlying, extreme particle acceleration processes are described and the likely importance of relativistic beaming in enhancing the observed radiation from a flare is emphasized. Recent research on fluid descriptions of unstable electromagnetic configurations are summarized and progress on the associated kinetic simulations that are needed to account for the acceleration and radiation is discussed. Future observational, simulation and experimental opportunities are briefly summarized.Comment: To appear in "Jets and Winds in Pulsar Wind Nebulae, Gamma-ray Bursts and Blazars: Physics of Extreme Energy Release" of the Space Science Reviews serie

arXiv.org e-Print Archive

Crossref

The polarized image of a synchrotron-emitting ring of gas orbiting a black hole

Author: Akiyama K.
Alberdi A.
Alef W.
Algaba J.C.
Anantua R.
Asada K.
Azulay R.
Baczko A.-K.
Ball D.
Baloković M.
Barrett J.
Bemmel I. van
Benson B.A.
Bintley D.
Blackburn L.
Blundell R.
Boland W.
Bouman K.L.
Bower G.C.
Boyce H.
Bremer M.
Brinkerink C.D.
Brissenden R.
Britzen S.
Broderick A.E.
Broguiere D.
Bronzwaer T.
Byun D.-Y.
Carlstrom J.E.
Chael A.A.
Chan C.-K.
Chang D.O.
Chatterjee K.
Chatterjee S.
Chen M.-T.
Chen Y.
Chesler P.M.
Cho I.
Christian P.
Conway J.E.
Cordes J.M.
Crawford T.M.
Crew G.B.
Cruz-Osorio A.
Cui Y.
Davelaar J.
De Laurentis M.
Deane R.
Dempsey J.
Desvignes G.
Dexter J.
Doeleman S.S.
Eatough R.P.
Event Horizon Telescope Collaboration.
Falcke H.
Farah J.
Fish V.L.
Fomalont E.
Ford H.A.
Fraga-Encinas R.
Friberg P.
Fromm C.M.
Fuentes A.
Galison P.
Gammie C.F.
García R.
Gelles Z.
Gentaz O.
Georgiev B.
Goddi C.
Gold R.
Gu M.
Gurwell M.
Gómez J.L.
Gómez-Ruiz A.I.
Hada K.
Haggard D.
Hecht M.H.
Hesper R.
Himwich E.
Ho L.C.
Ho P.
Honma M.
Huang C.-W.L.
Huang L.
Hughes D.H.
Ikeda S.
Inoue M.
Issaoun S.
James D.J.
Jannuzi B.T.
Janssen M.
Jeter B.
Jiang W.
Jimenez-Rosales A.
Johnson M.D.
Jorstad S.
Jung T.
Karami M.
Karuppusamy R.
Kawashima T.
Keating G.K.
Kettenis M.
Kim D.-J.
Kim J.
Kim J.-Y.
Kino M.
Koay J.Y.
Koch P.M.
Kofuji Y.
Koyama S.
Kramer C.
Kramer M.
Krichbaum T.P.
Kuo C.-Y.
Langevelde H.J. van
Lauer T.R.
Lee S.-S.
Levis A.
Li Y.-R.
Li Z.
Lico R.
Lindahl G.
Lindqvist M.
Liu J.
Liu K.
Liuzzo E.
Lo W.-P.
Lobanov A.P.
Loinard L.
Lonsdale C.
Lu R.-S.
MacDonald N.R.
Mao J.
Marchili N.
Markoff S.
Marrone D.P.
Marscher A.P.
Martí-Vidal I.
Matsushita S.
Matthews L.D.
Medeiros L.
Mejías A.M.
Menten K.M.
Mizuno I.
Mizuno Y.
Moran J.M.
Moriyama K.
Moscibrodzka M.
Musoke G.
Müller C.
Nagai H.
Nagar N.M.
Nakamura M.
Narayan R.
Narayanan G.
Natarajan I.
Nathanail A.
Neilsen J.
Neri R.
Ni C.
Noutsos A.
Nowak M.A.
Okino H.
Olivares H.
Ortiz-León G.N.
Oyama T.
Palumbo D.C.M.
Park J.
Patel N.
Pen U.-L.
Pesce D.W.
Piétu V.
Plambeck R.
PopStefanija A.
Porth O.
Prather B.
Preciado-López J.A.
Psaltis D.
Pu H.-Y.
Pötzl F.M.
Ramakrishnan V.
Rao R.
Rawlings M.G.
Raymond A.W.
Rezzolla L.
Ricarte A.
Ripperda B.
Roelofs F.
Rogers A.
Ros E.
Rose M.
Roshanineshat A.
Rossum D.R. van
Rottmann H.
Roy A.L.
Ruszczyk C.
Rygl K.L.J.
Sasada M.
Savolainen T.
Schloerb F.P.
Schuster K.-F.
Shao L.
Shen Z.
Small D.
Sohn B.W.
SooHoo J.
Sun H.
Sánchez S.
Sánchez-Arguelles D.
Tazaki F.
Tetarenko A.J.
Tiede P.
Tilanus R.P.J.
Titus M.
Toma K.
Torne P.
Traianou E.
Trent T.
Trippe S.
Wagner J.
Ward-Thompson D.
Wardle J.
Weintroub J.
Wex N.
Wharton R.
Wielgus M.
Wong G.N.
Wu Q.
Yoon D.
Young A.
Young K.
Younsi Z.
Yuan F.
Yuan Y.-F.
Zensus J.A.
Zhao G.-Y.
Zhao S.-S.
Özel F.
Publication venue: 'American Astronomical Society'
Publication date: 01/01/2021
Field of study

High Energy Astrophysic

UCL Discovery

Leiden University Scholary Publications

Constraints on black-hole charges with the 2017 EHT observations of M87*

Author: Akiyama K.
Alberdi A.
Alef W.
Algaba J.C.
Anantua R.
Asada K.
Azulay R.
Baczko A.-K.
Ball D.
Baloković M.
Barrett J.
Benson B.A.
Bintley D.
Blackburn L.
Blundell R.
Boland W.
Bouman K.L.
Bower G.C.
Boyce H.
Bremer M.
Brinkerink C.D.
Brissenden R.
Britzen S.
Broderick A.E.
Broguiere D.
Bronzwaer T.
Byun D.-Y.
Carlstrom J.E.
Chael A.
Chan C.-K.
Chatterjee K.
Chatterjee S.
Chen M.-T.
Chen Y.
Chesler P.M.
Cho I.
Christian P.
Conway J.E.
Cordes J.M.
Crawford T.M.
Crew G.B.
Cruz-Osorio A.
Cui Y.
Davelaar J.
De Laurentis M.
Deane R.
Dempsey J.
Desvignes G.
Doeleman S.S.
Eatough R.P.
Falcke H.
Farah J.
Fish V.L.
Fomalont E.
Ford H.A.
Fraga-Encinas R.
Friberg P.
Fromm C.M.
Fuentes A.
Galison P.
Gammie C.F.
García R.
Gentaz O.
Georgiev B.
Goddi C.
Gold R.
Gu M.
Gurwell M.
Gómez J.L.
Gómez-Ruiz A.I.
Hada K.
Haggard D.
Hecht M.H.
Hesper R.
Ho L.C.
Ho P.
Honma M.
Huang C.-W.L.
Huang L.
Hughes D.H.
Ikeda S.
Inoue M.
Issaoun S.
James D.J.
Jannuzi B.T.
Janssen M.
Jeter B.
Jiang W.
Jimenez-Rosales A.
Johnson M.D.
Jorstad S.
Jung T.
Karami M.
Karuppusamy R.
Kawashima T.
Keating G.K.
Kettenis M.
Kim D.-J.
Kim J.
Kim J.
Kim J.-Y.
Kino M.
Koay J.Y.
Koch P.M.
Kocherlakota P.
Kofuji Y.
Koyama S.
Kramer C.
Kramer M.
Krichbaum T.P.
Kuo C.-Y.
Lauer T.R.
Lee S.-S.
Levis A.
Li Y.-R.
Li Z.
Lico R.
Lindahl G.
Lindqvist M.
Liu J.
Liu K.
Liuzzo E.
Lo W.-P.
Lobanov A.P.
Loinard L.
Lonsdale C.
Lu R.-S.
MacDonald N.R.
Mao J.
Marchili N.
Markoff S.
Marrone D.P.
Marscher Alan P.
Martí-Vidal I.
Matsushita S.
Matthews L.D.
Medeiros L.
Mejías A.M.
Menten K.M.
Mizuno I.
Mizuno Y.
Moran J.M.
Moriyama K.
Moscibrodzka M.
Musoke G.
Müller C.
Nagai H.
Nagar N.M.
Nakamura M.
Narayan R.
Narayanan G.
Natarajan I.
Nathanail A.
Neilsen J.
Neri R.
Ni C.
Noutsos A.
Nowak M.A.
Okino H.
Olivares H.
Ortiz-León G.N.
Oyama T.
Palumbo D.C.M.
Park J.
Patel N.
Pen U.-L.
Pesce D.W.
Piétu V.
Plambeck R.
PopStefanija A.
Porth O.
Prather B.
Preciado-López J.A.
Psaltis D.
Pu H.-Y.
Pötzl F.M.
Ramakrishnan V.
Rao R.
Rawlings M.G.
Raymond A.W.
Rezzolla L.
Ricarte A.
Ripperda B.
Roelofs F.
Rogers A.
Ros E.
Rose M.
Roshanineshat A.
Rottmann H.
Roy A.L.
Ruszczyk C.
Rygl K.L.J.
Sasada M.
Savolainen T.
Schloerb F.P.
Schuster K.-F.
Shao L.
Shen Z.
Small D.
Sohn B.W.
SooHoo J.
Sun H.
Sánchez S.
Sánchez-Arguelles D.
Tazaki F.
Tetarenko A.J.
Tiede P.
Tilanus R.P.J.
Titus M.
Toma K.
Torne P.
Traianou E.
Trent T.
Trippe S.
van Bemmel I.
van Langevelde H.J.
van Rossum D.R.
Wagner J.
Ward-Thompson D.
Wardle J.
Weintroub J.
Wex N.
Wharton R.
Wielgus M.
Wong G.N.
Wu Q.
Yoon D.
Young A.
Young K.
Younsi Z.
Yuan F.
Yuan Y.-F.
Zensus J.A.
Zhao G.-Y.
Zhao S.-S.
Özel F.
Publication venue: 'American Physical Society (APS)'
Publication date: 01/01/2021
Field of study

InstrumentationHigh Energy Astrophysic

Boston University Institutional Repository (OpenBU)

UCL Discovery

Leiden University Scholary Publications

The variability of the black hole image in M87 at the dynamical timescale

Author: Akiyama K.
Alberdi A.
Alef W.
Algaba J.C.
Anantua R.
Asada K.
Azulay R.
Baczko A.-K.
Ball D.
Baloković M.
Barrett J.
Benson B.A.
Bintley D.
Blackburn L.
Blundell R.
Boland W.
Bouman K.L.
Bower G.C.
Boyce H.
Bremer M.
Brinkerink C.D.
Brissenden R.
Britzen S.
Broderick A.E.
Broguiere D.
Bronzwaer T.
Bustamente S.
Byun D.-Y.
Carlstrom J.E.
Chael A.
Chan C.-K.
Chatterjee K.
Chatterjee S.
Chen M.-T.
Chen Y.
Cho I.
Christian P.
Conway J.E.
Cordes J.M.
Crawford T.M.
Crew G.B.
Cruz-Osorio A.
Cui Y.
Davelaar J.
De Laurentis M.
Deane R.
Dempsey J.
Desvignes G.
Dexter J.
Doeleman S.S.
Dougall S.T.
Eatough R.P.
Falcke H.
Farah J.
Fish V.L.
Fomalont E.
Ford H.A.
Fraga-Encinas R.
Friberg P.
Fromm C.M.
Fuentes A.
Galison P.
Gammie C.F.
García R.
Gentaz O.
Georgiev B.
Goddi C.
Gold R.
Gu M.
Gurwell M.
Gómez J..L.
Gómez-Ruiz A.I.
Hada K.
Haggard D.
Hecht M.H.
Hesper R.
Ho L.C.
Ho P.
Honma M.
Huang C.-W.L.
Huang L.
Hughes D.H.
Ikeda S.
Inoue M.
Issaoun S.
James D.J.
Jannuzi B.T.
Janssen M.
Jeter B.
Jiang W.
Jimenez-Rosales A.
Johnson M.D.
Jorstad S.
Jung T.
Karami M.
Karuppusamy R.
Kawashima T.
Keating G.K.
Kettenis M.
Kim D.-J.
Kim J.
Kim J.
Kim J.-Y.
Kino M.
Koay J.Y.
Koch P.M.
Kofuji Y.
Koyama S.
Kramer C.
Kramer M.
Krichbaum T.P.
Kuo C.-Y.
Lauer T.R.
Lee S.-S.
Levis A.
Li Y.-R.
Li Z.
Lico R.
Lindahl G.
Lindqvist M.
Liu J.
Liu K.
Liuzzo E.
Lo W.-P.
Lobanov A.P.
Loinard L.
Lonsdale C.
Lu R.-S.
MacDonald N.R.
Mao J.
Marchili N.
Markoff S.
Marrone D.P.
Marscher Alan P.
Martí-Vidal I.
Matsushita S.
Matthews L.D.
Medeiros L.
Mejías A.M.
Menten K.M.
Mizuno I.
Mizuno Y.
Moran J.M.
Moriyama K.
Moscibrodzka M.
Musoke G.
Müller C.
Nagai H.
Nagar N.M.
Nakamura M.
Narayan R.
Narayanan G.
Natarajan I.
Nathanail A.
Neilsen J.
Neri R.
Ni C.
Noutsos A.
Nowak M.A.
Okino H.
Olivares H.
Ortiz-León G.N.
Oyama T.
Palumbo D.C.M.
Park J.
Patel N.
Pen U.-L.
Pesce D.W.
Piétu V.
Plambeck R.
PopStefanija A.
Porth O.
Prather B.S.
Preciado-López J.A.
Psaltis D.
Pu H.-Y.
Pötzl F.M.
Ramakrishnan V.
Rao R.
Rawlings M.G.
Raymond A.W.
Rezzolla L.
Ripperda B.
Roelofs F.
Rogers A.
Ros E.
Rose M.
Roshanineshat A.
Rottmann H.
Roy A.L.
Ruszczyk C.
Rygl K.L.J.
Sasada M.
Satapathy K.
Savolainen T.
Schloerb F.P.
Schuster K.-F.
Shao L.
Shen Z.
Small D.
Sohn B.W.
SooHoo J.
Sun H.
Sánchez S.
Sánchez-Arguelles D.
Tazaki F.
Tetarenko A.J.
Tiede P.
Tilanus R.P.J.
Titus M.
Toma K.
Torne P.
Traianou E.
Trent T.
Trippe S.
van Bemmel I.
van Langevelde H.J.
van Rossum D.R.
Wagner J.
Ward-Thompson D.
Wardle J.
Weintroub J.
Wex N.
Wharton R.
Wielgus M.
Wiik K.
Wong G.N.
Wu Q.
Yoon D.
Young A.
Young K.
Younsi Z.
Yuan F.
Yuan Y.-F.
Zensus J.A.
Zhao G.-Y.
Zhao S.-S.
Özel F.
Publication venue: 'American Astronomical Society'
Publication date: 01/01/2022
Field of study

The black hole images obtained with the Event Horizon Telescope (EHT) are expected to be variable at the dynamical timescale near their horizons. For the black hole at the center of the M87 galaxy, this timescale (5–61 days) is comparable to the 6 day extent of the 2017 EHT observations. Closure phases along baseline triangles are robust interferometric observables that are sensitive to the expected structural changes of the images but are free of station-based atmospheric and instrumental errors. We explored the day-to-day variability in closure-phase measurements on all six linearly independent nontrivial baseline triangles that can be formed from the 2017 observations. We showed that three triangles exhibit very low day-to-day variability, with a dispersion of ∼3°–5°. The only triangles that exhibit substantially higher variability (∼90°–180°) are the ones with baselines that cross the visibility amplitude minima on the u–v plane, as expected from theoretical modeling. We used two sets of general relativistic magnetohydrodynamic simulations to explore the dependence of the predicted variability on various black hole and accretion-flow parameters. We found that changing the magnetic field configuration, electron temperature model, or black hole spin has a marginal effect on the model consistency with the observed level of variability. On the other hand, the most discriminating image characteristic of models is the fractional width of the bright ring of emission. Models that best reproduce the observed small level of variability are characterized by thin ring-like images with structures dominated by gravitational lensing effects and thus least affected by turbulence in the accreting plasmas.https://iopscience.iop.org/article/10.3847/1538-4357/ac332e/pdfPublished versio

Boston University Institutional Repository (OpenBU)

Leiden University Scholary Publications