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Amol V. Patwardhan
Researcher at University of California, Berkeley
Publications - 21
Citations - 840
Amol V. Patwardhan is an academic researcher from University of California, Berkeley. The author has contributed to research in topics: Neutrino & Neutrino oscillation. The author has an hindex of 9, co-authored 16 publications receiving 527 citations. Previous affiliations of Amol V. Patwardhan include University of Washington & SLAC National Accelerator Laboratory.
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Journal ArticleDOI
A White Paper on keV sterile neutrino Dark Matter
Rathin Adhikari,Matteo Agostini,N. Anh Ky,N. Anh Ky,T. Araki,Maria Archidiacono,M. Bahr,J. Baur,J. Behrens,Fedor Bezrukov,P. S. Bhupal Dev,Debasish Borah,Alexey Boyarsky,A. de Gouvea,C. A. de S. Pires,H. J. de Vega,Alex G. Dias,P. Di Bari,Z. Djurcic,Kai Dolde,H. Dorrer,M. Durero,O. Dragoun,Marco Drewes,Guido Drexlin,Ch. E. Düllmann,Klaus Eberhardt,Sergey Eliseev,Christian Enss,Nick Evans,A. Faessler,Pavel Filianin,V. Fischer,Andreas Fleischmann,Joseph A. Formaggio,Jeroen Franse,F.M. Fraenkle,Carlos S. Frenk,George M. Fuller,L. Gastaldo,Antonella Garzilli,Carlo Giunti,Ferenc Glück,Maury Goodman,M. C. Gonzalez-Garcia,Dmitry Gorbunov,Dmitry Gorbunov,Jan Hamann,Volker Hannen,Steen Hannestad,Steen Honoré Hansen,C. Hassel,Julian Heeck,F. Hofmann,T. Houdy,T. Houdy,A. Huber,Dmytro Iakubovskyi,Aldo Ianni,Alejandro Ibarra,Richard Jacobsson,Tesla E. Jeltema,Josef Jochum,Sebastian Kempf,T. Kieck,M. Korzeczek,M. Korzeczek,V. N. Kornoukhov,Tobias Lachenmaier,Mikko Laine,Paul Langacker,Thierry Lasserre,J. Lesgourgues,D. Lhuillier,Yufeng Li,W. Liao,A.W. Long,Michele Maltoni,Gianpiero Mangano,Nick E. Mavromatos,Nicola Menci,Alexander Merle,Susanne Mertens,Susanne Mertens,Alessandro Mirizzi,Alessandro Mirizzi,Benjamin Monreal,A. A. Nozik,A. A. Nozik,Andrii Neronov,V. Niro,Yu. N. Novikov,L. Oberauer,Ernst W. Otten,Nathalie Palanque-Delabrouille,Marco Pallavicini,V. S. Pantuev,Emmanouil Papastergis,Stephen J. Parke,Silvia Pascoli,Sergio Pastor,Amol V. Patwardhan,Apostolos Pilaftsis,D. C. Radford,P. C.-O. Ranitzsch,O. Rest,Dean J. Robinson,P. S. Rodrigues da Silva,Oleg Ruchayskiy,Oleg Ruchayskiy,Norma G. Sanchez,Manami Sasaki,Ninetta Saviano,Ninetta Saviano,Aurel Schneider,F. Schneider,T. Schwetz,S. Schönert,S. Scholl,Francesco Shankar,Robert Shrock,N. Steinbrink,Louis E. Strigari,F. Suekane,B. Suerfu,R. Takahashi,N. Thi Hong Van,Igor Tkachev,Maximilian Totzauer,Y. Tsai,Christopher George Tully,Kathrin Valerius,José W. F. Valle,D. Vénos,Matteo Viel,M. Vivier,Mei-Yu Wang,Ch. Weinheimer,Klaus Wendt,Lindley Winslow,Joachim Wolf,Michael Wurm,Z. Xing,Shun Zhou,Kai Zuber +144 more
TL;DR: A comprehensive review of keV-scale neutrino Dark Matter can be found in this paper, where the role of active neutrinos in particle physics, astrophysics, and cosmology is reviewed.
Journal ArticleDOI
A White Paper on keV Sterile Neutrino Dark Matter
Rathin Adhikari,Matteo Agostini,N. Anh Ky,N. Anh Ky,T. Araki,Maria Archidiacono,M. Bahr,J. Baur,J. Behrens,Fedor Bezrukov,P. S. Bhupal Dev,Debasish Borah,Alexey Boyarsky,A. de Gouvea,C. A. de S. Pires,H. J. de Vega,Alex G. Dias,P. Di Bari,Z. Djurcic,Kai Dolde,H. Dorrer,M. Durero,O. Dragoun,Marco Drewes,Guido Drexlin,Ch. E. Düllmann,Klaus Eberhardt,Sergey Eliseev,Christian Enss,Nick Evans,A. Faessler,Pavel Filianin,V. Fischer,Andreas Fleischmann,Joseph A. Formaggio,Jeroen Franse,F.M. Fraenkle,Carlos S. Frenk,George M. Fuller,L. Gastaldo,Antonella Garzilli,Carlo Giunti,Ferenc Glück,Maury Goodman,M. C. Gonzalez-Garcia,Dmitry Gorbunov,Dmitry Gorbunov,Jan Hamann,Volker Hannen,Steen Hannestad,Steen Honoré Hansen,C. Hassel,Julian Heeck,F. Hofmann,T. Houdy,T. Houdy,A. Huber,Dmytro Iakubovskyi,Aldo Ianni,Alejandro Ibarra,Richard Jacobsson,Tesla E. Jeltema,Josef Jochum,Sebastian Kempf,T. Kieck,M. Korzeczek,M. Korzeczek,V. N. Kornoukhov,Tobias Lachenmaier,Mikko Laine,Paul Langacker,Thierry Lasserre,J. Lesgourgues,D. Lhuillier,Yufeng Li,W. Liao,A.W. Long,Michele Maltoni,Gianpiero Mangano,Nick E. Mavromatos,Nicola Menci,Alexander Merle,Susanne Mertens,Susanne Mertens,Alessandro Mirizzi,Alessandro Mirizzi,Benjamin Monreal,A. A. Nozik,A. A. Nozik,Andrii Neronov,V. Niro,Yu. N. Novikov,L. Oberauer,Ernst W. Otten,Nathalie Palanque-Delabrouille,Marco Pallavicini,V. S. Pantuev,Emmanouil Papastergis,Stephen J. Parke,Silvia Pascoli,Sergio Pastor,Amol V. Patwardhan,Apostolos Pilaftsis,D. C. Radford,P. C.-O. Ranitzsch,O. Rest,Dean J. Robinson,P. S. Rodrigues da Silva,Oleg Ruchayskiy,Oleg Ruchayskiy,Norma G. Sanchez,Manami Sasaki,Ninetta Saviano,Ninetta Saviano,Aurel Schneider,F. Schneider,T. Schwetz,S. Schönert,S. Scholl,Francesco Shankar,Robert Shrock,N. Steinbrink,Louis E. Strigari,F. Suekane,B. Suerfu,R. Takahashi,N. Thi Hong Van,Igor Tkachev,Maximilian Totzauer,Y. Tsai,Christopher George Tully,Kathrin Valerius,José W. F. Valle,D. Vénos,Matteo Viel,M. Vivier,Mei-Yu Wang,Ch. Weinheimer,Klaus Wendt,Lindley Winslow,Joachim Wolf,Michael Wurm,Z. Xing,Shun Zhou,Kai Zuber +144 more
TL;DR: A comprehensive review of keV-scale neutrino Dark Matter can be found in this paper, where the role of active neutrinos in particle physics, astrophysics, and cosmology is reviewed.
Journal ArticleDOI
Diluted equilibrium sterile neutrino dark matter
Amol V. Patwardhan,George M. Fuller,Chad T. Kishimoto,Chad T. Kishimoto,Alexander Kusenko,Alexander Kusenko +5 more
TL;DR: In this article, a model where sterile neutrinos with rest masses in the range of KV to MeV can be the dark matter and be consistent with all laboratory, cosmological, and large-scale structure, as well as x-ray constraints is presented.
Journal ArticleDOI
Entanglement and collective flavor oscillations in a dense neutrino gas
Michael J. Cervia,Amol V. Patwardhan,Amol V. Patwardhan,A. B. Balantekin,Susan Coppersmith,Susan Coppersmith,Calvin W. Johnson +6 more
TL;DR: In this paper, the authors investigated the importance of going beyond the mean field approximation in the dynamics of collective neutrino oscillations and applied concepts from many-body physics and quantum information theory.
Journal ArticleDOI
Eigenvalues and eigenstates of the many-body collective neutrino oscillation problem
TL;DR: In this paper, the Richardson-Gaudin framework is used to obtain eigenvalues and eigenstates of a many-body Hamiltonian describing collective neutrino oscillations.