T
T. Lasserre
Researcher at Commissariat à l'énergie atomique et aux énergies alternatives
Publications - 15
Citations - 2912
T. Lasserre is an academic researcher from Commissariat à l'énergie atomique et aux énergies alternatives. The author has contributed to research in topics: Neutrino & Neutrino oscillation. The author has an hindex of 6, co-authored 15 publications receiving 2595 citations.
Papers
More filters
Journal ArticleDOI
Reactor antineutrino anomaly
G. Mention,Michael Fechner,T. Lasserre,Th. A. Mueller,David Lhuillier,M. Cribier,Alain Letourneau +6 more
TL;DR: In this article, a reevaluation applies to all reactor neutrino experiments and the compatibility of their results with the existence of a fourth nonstandard neutrinos state driving neutrini oscillations at short distances is discussed.
Journal ArticleDOI
Improved Predictions of Reactor Antineutrino Spectra
Th. A. Mueller,David Lhuillier,Muriel Fallot,Alain Letourneau,S. Cormon,M. Fechner,Lydie Giot,T. Lasserre,J. Martino,G. Mention,Amanda Porta,F. Yermia +11 more
TL;DR: In this paper, the authors report new calculations of antineutrino spectra including the latest information from nuclear databases and a detailed error budget, which is based on the so-called ab initio approach where the sum of all beta-branches of all fission products predicted by an evolution code.
Posted Content
Light Sterile Neutrinos: A White Paper
Kevork N. Abazajian,M. A. Acero,Sanjib Kumar Agarwalla,Alexis A. Aguilar-Arevalo,Carl H. Albright,Stefan Antusch,Carlos Arguelles,A. B. Balantekin,Gabriela Barenboim,Vernon Barger,P. Bernardini,Fedor Bezrukov,Ole Eggers Bjælde,S. A. Bogacz,Nathaniel Bowden,Alexey Boyarsky,A. Bravar,D. Bravo Berguño,S. J. Brice,A. Bross,B. Caccianiga,F. Cavanna,E. J. Chun,B. T. Cleveland,Antoine Collin,P. Coloma,Janet Conrad,M. Cribier,A. Cucoanes,Juan Carlos D'Olivo,Sudeep Das,A. de Gouvea,A. V. Derbin,Ranjan Dharmapalan,J. S. Díaz,X. J. Ding,Z. Djurcic,Andrea Donini,D. Duchesneau,H. Ejiri,S. R. Elliott,D. J. Ernst,A. Esmaili,J. J. Evans,Enrique Fernandez-Martinez,Enectali Figueroa-Feliciano,B. T. Fleming,Joseph A. Formaggio,D. Franco,J. Gaffiot,R. Gandhi,Y. Gao,G. T. Garvey,V. N. Gavrin,Pomita Ghoshal,D. Gibin,Carlo Giunti,Sergei Gninenko,V. V. Gorbachev,Dmitry Gorbunov,R. Guenette,A. Guglielmi,Francis Halzen,Jan Hamann,Steen Hannestad,Wick Haxton,K. M. Heeger,Reyco Henning,Porfidio Hernández,Patrick Huber,W. Huelsnitz,An. Ianni,T. V. Ibragimova,Y. Karadzhov,G. Karagiorgi,G. Keefer,Y. D. Kim,Joachim Kopp,V.N. Kornoukhov,Alexander Kusenko,P. Kyberd,Paul Langacker,T. Lasserre,Marco Laveder,Audrey Letourneau,David Lhuillier,Yufeng Li,Manfred Lindner,J. M. Link,B. L. Littlejohn,Paolo Lombardi,Kenneth Long,Jacobo Lopez-Pavon,W. C. Louis,Livia Ludhova,Joseph Lykken,Pedro A. N. Machado,Michele Maltoni,W. A. Mann,D. Marfatia,C. Mariani,V. A. Matveev,Nick E. Mavromatos,Alessandro Melchiorri,Davide Meloni,O. Mena,G. Mention,Alexander Merle,E. Meroni,M. Mezzetto,G. B. Mills,Djordje Minic,Lino Miramonti,D. Mohapatra,Rabindra N. Mohapatra,C. Montanari,Y. Mori,Th. A. Mueller,Hans P. Mumm,V. N. Muratova,Ann E. Nelson,Jeffrey S. Nico,Etam Noah,J. A. Nowak,O. Yu. Smirnov,M. Obolensky,Sandip Pakvasa,O. Palamara,Marco Pallavicini,Silvia Pascoli,L. Patrizii,Z. Pavlovic,Orlando L. G. Peres,H. Pessard,F. Pietropaolo,Michael Pitt,Milorad Popovic,Josef Pradler,Gioacchino Ranucci,H. Ray,Soebur Razzaque,B. Rebel,R. G. H. Robertson,Werner Rodejohann,S. D. Rountree,C. Rubbia,Oleg Ruchayskiy,Paola Sala,Kate Scholberg,Thomas Schwetz-Mangold,M. H. Shaevitz,Mikhail Shaposhnikov,R. Shrock,S. Simone,M. D. Skorokhvatov,M. Sorel,A. Sousa,David N. Spergel,J. Spitz,Luca Stanco,I. Stancu,A. Suzuki,Tatsu Takeuchi,Irene Tamborra,J. Tang,G. Testera,X. C. Tian,A. Tonazzo,C. Tunnell,R. G. Van de Water,Licia Verde,E. P. Veretenkin,C. Vignoli,M. Vivier,R. B. Vogelaar,M. O. Wascko,J. F. Wilkerson,Walter Winter,Yvonne Y. Y. Wong,Tsutomu T. Yanagida,Osamu Yasuda,M. Yeh,F. Yermia,Z. Yokley,G. P. Zeller,Liang Zhan,He Zhang +186 more
TL;DR: In this article, the authors address the hypothesis of light sterile neutrinos based on recent anomalies observed in neutrino experiments and the latest astrophysical data, and propose a white paper addressing this hypothesis.
Posted ContentDOI
First direct neutrino-mass measurement with sub-eV sensitivity
M. Aker,M. Böttcher,A. Beglarian,J. Behrens,A. I. Berlev,U. Besserer,B. Bieringer,F. Block,Beate Bornschein,Lutz Bornschein,T. Brunst,T. S. Caldwell,Carney Rmd,Luisa La Cascio,Suren Chilingaryan,W. Q. Choi,K. Debowski,M. Deffert,M. Descher,D. Díaz Barrero,P. J. Doe,Dragouns O,Guido Drexlin,K. Eitel,E. Ellinger,R. Engel,Sanshiro Enomoto,A. Felden,Joseph A. Formaggio,F. M. Fränkle,G. B. Franklin,F. Friedel,A. Fulst,K. Gauda,W. Gil,Ferenc Glück,R. Grössle,R. Gumbsheimer,Gupta,T. Höhn,Hannen,N. Haußmann,K. Helbing,S. Hickford,R. Hiller,Hillsheimer D,D. Hinz,T. Houdy,A. Huber,A. Jansen,C. Karl,Kellerer F,J. Kellerer,M. Klein,C. Köhler,L. Köllenberger,Andreas Kopmann,M. Korzeczek,A. Kovalík,B. Krasch,H. Krause,N. Kunka,T. Lasserre,T. L. Le,Ondřej Lebeda,B. Lehnert,A. Lokhov,M. Machatschek,E. Malcherek,M. Mark,A. Marsteller,E. L. Martin,C. Melzer,A. Menshikov,S. Mertens,J. Mostafa,K. Müller,S. Niemes,P. Oelpmann,Diana Parno,Poon Awp,Poyato Jml,Florian Priester,Marco Röllig,C. Röttele,Robertson Rgh,Werner Rodejohann,C. Rodenbeck,M. Rysavy,R. Sack,Alejandro Saenz,P. Schäfer,A. Pollithy,L. Schimpf,Scholosser K,Magnus Schlösser,L. Schlüter,S. Schneidewind,M. Schrank,B. Schulz,Schwemmer A,M. Šefčík,Sibille,D. Siegmann,M. Slezák,M. Steidl,Michael Sturm,M. Sun,Denis Tcherniakhovski,H. H. Telle,L. A. Thorne,Thomas Thümmler,N. Titov,Igor Tkachev,K. Urban,Kathrin Valerius,D. Vénos,Hernandez Apv,C. Weinheimer,Stefan Welte,J. Wendel,J. F. Wilkerson,J. Wolf,Sascha Wüstling,W. Xu,Y.-R. Yen,S. Zadoroghny,G. P. Zeller +127 more
TL;DR: The second measurement campaign of the Karlsruhe Tritium Neutrino (KATRIN) experiment was reported in this paper, where the best fit to the spectral data yields an upper limit of (0.26\pm0.34)-,\mathrm{eV^4/c^4}$ at the 90% confidence level (CL).
Journal ArticleDOI
Analysis methods for the first KATRIN neutrino-mass measurement
M. Aker,K. Altenmüller,A. Beglarian,J. Behrens,A. I. Berlev,U. Besserer,B. Bieringer,Klaus Blaum,F. Block,Beate Bornschein,Lutz Bornschein,M. Böttcher,T. Brunst,T. S. Caldwell,L. La Cascio,Suren Chilingaryan,W. Q. Choi,D. Díaz Barrero,K. Debowski,M. Deffert,M. Descher,P. J. Doe,O. Dragoun,Guido Drexlin,S. Dyba,F. Edzards,K. Eitel,E. Ellinger,R. Engel,Sanshiro Enomoto,M. Fedkevych,A. Felden,Joseph A. Formaggio,F. M. Fränkle,G. B. Franklin,F. Friedel,A. Fulst,K. Gauda,W. Gil,Ferenc Glück,R. Grössle,R. Gumbsheimer,T. Höhn,Volker Hannen,N. Haußmann,K. Helbing,S. Hickford,R. Hiller,D. Hillesheimer,D. Hinz,T. Houdy,A. Huber,A. Jansen,L. Köllenberger,C. Karl,J. Kellerer,L. Kippenbrock,M. Klein,Andreas Kopmann,M. Korzeczek,A. Kovalík,B. Krasch,H. Krause,T. Lasserre,T. L. Le,Ondřej Lebeda,B. Lehnert,A. Lokhov,J. M. Lopez Poyato,K. Müller,M. Machatschek,E. Malcherek,M. Mark,A. Marsteller,E. L. Martin,C. Melzer,S. Mertens,S. Niemes,P. Oelpmann,A. Osipowicz,Diana Parno,A. W. P. Poon,Florian Priester,Marco Röllig,C. Röttele,O. Rest,R. G. H. Robertson,C. Rodenbeck,M. Ryšavý,R. Sack,Alejandro Saenz,A. Schaller,P. Schäfer,L. Schimpf,K. Schlösser,Magnus Schlösser,L. Schlüter,M. Schrank,B. Schulz,M. Šefčík,H. Seitz-Moskaliuk,V. Sibille,D. Siegmann,M. Slezák,Felix Spanier,M. Steidl,Michael Sturm,M. Sun,H. H. Telle,Thomas Thümmler,L. A. Thorne,N. Titov,Igor Tkachev,N. Trost,D. Vénos,K. Valerius,A. P. Vizcaya Hernández,Sascha Wüstling,M. Weber,C. Weinheimer,C. Weiss,Stefan Welte,J. Wendel,J. F. Wilkerson,J. Wolf,W. Xu,Y.-R. Yen,S. Zadoroghny,G. P. Zeller +128 more
TL;DR: Aker et al. as mentioned in this paper set an upper bound of 1.1 eV on the neutrino-mass scale at a 90% confidence level, based on a few weeks of running at a reduced source intensity and dominated by statistical uncertainty.