C
Christian Enss
Researcher at Heidelberg University
Publications - 245
Citations - 4918
Christian Enss is an academic researcher from Heidelberg University. The author has contributed to research in topics: Dielectric & Magnetic field. The author has an hindex of 34, co-authored 230 publications receiving 4092 citations. Previous affiliations of Christian Enss include Brown University & Karlsruhe Institute of Technology.
Papers
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BookDOI
Cryogenic particle detection
TL;DR: In this paper, the authors introduce the concept of thermal equilibrium calorimeters for X-ray astronomy and Astrophysics applications of Cryogenic Detectors using transition-edge sensors.
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
Direct Measurement of the Mass Difference of $^{163}$Ho and $^{163}$Dy Solves the $Q$-Value Puzzle for the Neutrino Mass Determination
Sergey Eliseev,Klaus Blaum,Michael Block,S. Chenmarev,S. Chenmarev,H. Dorrer,H. Dorrer,H. Dorrer,Ch. E. Düllmann,Christian Enss,Pavel Filianin,Pavel Filianin,Loredana Gastaldo,Mikhail Goncharov,Ulli Köster,F. Lautenschläger,Yu. N. Novikov,Yu. N. Novikov,Yu. N. Novikov,Alexander Rischka,R. X. Schüssler,Lutz Schweikhard,Andreas Türler,Andreas Türler +23 more
TL;DR: The measurement has solved the long-standing problem of large discrepancies in the Q value of the electron capture in (163)Ho determined by different techniques and will be possible to reach in the first phase of the ECHo experiment a statistical sensitivity to the neutrino mass below 10 eV, which will reduce its present upper limit by more than an order of magnitude.