English
Related papers

Related papers: Dark Matter EFT, the Third -- Neutrino WIMPs

200 papers

In this work we show that 3-3-1 model with right-handed neutrinos has a natural weakly interacting massive particle (WIMP) dark mater candidate. It is a complex scalar with mass of order of some hundreds of GeV which carries two units of…

High Energy Physics - Phenomenology · Physics 2009-01-06 C. A. de S. Pires , P. S. Rodrigues da Silva

Dark matter candidates arising in models of particle physics incorporating weak scale supersymmetry may produce detectable signals through their annihilation into neutrinos, photons, or positrons. A large number of relevant experiments are…

Astrophysics · Physics 2009-10-09 Jonathan L. Feng , Konstantin T. Matchev , Frank Wilczek

Distinguishing a dark matter interaction from an astrophysical neutrino-induced interaction will be major challenge for future direct dark matter searches. In this paper, we consider this issue within non-relativistic Effective Field Theory…

High Energy Physics - Phenomenology · Physics 2016-04-13 James B. Dent , Bhaskar Dutta , Jayden L. Newstead , Louis E. Strigari

In an extension of MSSM with two triplets and a singlet, called the TNMSSM, there are seven neutralinos which can enrich the study of cold dark matter if one expects that the weakly interacting massive particle (WIMP) is responsible for the…

High Energy Physics - Phenomenology · Physics 2024-11-28 Zhong-Jun Yang , Jin-Lei Yang , Shu-Min Zhao , Xing-Gang Wu , Tai-Fu Feng

The continued non-observation of events emanating from dark matter (DM) annihilations in various direct and indirect detection experiments calls into question the mechanism for determining the relic density of a weakly interacting massive…

High Energy Physics - Phenomenology · Physics 2023-02-08 Priyotosh Bandyopadhyay , Debajyoti Choudhury , Divya Sachdeva

Direct dark matter searches are promising techniques to identify the nature of dark matter particles. I describe the future of this field of research, focussing on the question of what can be achieved in the next decade. I will present the…

Instrumentation and Methods for Astrophysics · Physics 2012-12-04 Laura Baudis

Non-WIMP dark matter candidates include particles motivated by minimality, candidates motivated by experimental anomalies, and exotic possibilities motivated primarily by the desire of clever iconoclasts to highlight how truly ignorant we…

High Energy Physics - Phenomenology · Physics 2010-02-23 Jonathan L. Feng

A simple and well-motivated explanation for the origin of dark matter is that it consists of thermal relic particles that get their mass entirely through electroweak symmetry breaking. The simplest models implementing this possibility…

High Energy Physics - Phenomenology · Physics 2007-05-23 Philip C. Schuster , Natalia Toro

Gravitinos and axinos produced in the late decays of other supersymmetric particles are well-motivated dark matter (DM) candidates, whose experimental evidences are very distinctive and different from other standard candidates, as thermal…

High Energy Physics - Phenomenology · Physics 2008-11-26 J. A. R. Cembranos , Jonathan L. Feng , A. Rajaraman , F. Takayama

We discuss an interesting class of models, based on strongly coupled Dark Matter (DM), where sizable effects can be expected in LHC missing energy (MET) searches, compatibly with a large separation of scales. In this case, an effective…

High Energy Physics - Phenomenology · Physics 2016-12-21 Sebastian Bruggisser , Francesco Riva , Alfredo Urbano

We study the prospect of heavy singlet neutrinos as a dark matter (DM) candidate within a neutrinophilic U(1) model, where the Standard Model (SM) is extended with a U(1) gauge symmetry, and neutrino mass and oscillation parameters are…

High Energy Physics - Phenomenology · Physics 2024-05-27 Waleed Abdallah , Anjan Kumar Barik , Santosh Kumar Rai , Tousik Samui

The nature of dark matter and properties of neutrinos are among the most pressing issues in contemporary particle physics. The dual-phase xenon time-projection chamber is the leading technology to cover the available parameter space for…

Instrumentation and Detectors · Physics 2023-02-10 J. Aalbers , K. Abe , V. Aerne , F. Agostini , S. Ahmed Maouloud , D. S. Akerib , D. Yu. Akimov , J. Akshat , A. K. Al Musalhi , F. Alder , S. K. Alsum , L. Althueser , C. S. Amarasinghe , F. D. Amaro , A. Ames , T. J. Anderson , B. Andrieu , N. Angelides , E. Angelino , J. Angevaare , V. C. Antochi , D. Antón Martin , B. Antunovic , E. Aprile , H. M. Araújo , J. E. Armstrong , F. Arneodo , M. Arthurs , P. Asadi , S. Baek , X. Bai , D. Bajpai , A. Baker , J. Balajthy , S. Balashov , M. Balzer , A. Bandyopadhyay , J. Bang , E. Barberio , J. W. Bargemann , L. Baudis , D. Bauer , D. Baur , A. Baxter , A. L. Baxter , M. Bazyk , K. Beattie , J. Behrens , N. F. Bell , L. Bellagamba , P. Beltrame , M. Benabderrahmane , E. P. Bernard , G. F. Bertone , P. Bhattacharjee , A. Bhatti , A. Biekert , T. P. Biesiadzinski , A. R. Binau , R. Biondi , Y. Biondi , H. J. Birch , F. Bishara , A. Bismark , C. Blanco , G. M. Blockinger , E. Bodnia , C. Boehm , A. I. Bolozdynya , P. D. Bolton , S. Bottaro , C. Bourgeois , B. Boxer , P. Brás , A. Breskin , P. A. Breur , C. A. J. Brew , J. Brod , E. Brookes , A. Brown , E. Brown , S. Bruenner , G. Bruno , R. Budnik , T. K. Bui , S. Burdin , S. Buse , J. K. Busenitz , D. Buttazzo , M. Buuck , A. Buzulutskov , R. Cabrita , C. Cai , D. Cai , C. Capelli , J. M. R. Cardoso , M. C. Carmona-Benitez , M. Cascella , R. Catena , S. Chakraborty , C. Chan , S. Chang , A. Chauvin , A. Chawla , H. Chen , V. Chepel , N. I. Chott , D. Cichon , A. Cimental Chavez , B. Cimmino , M. Clark , R. T. Co , A. P. Colijn , J. Conrad , M. V. Converse , M. Costa , A. Cottle , G. Cox , O. Creaner , J. J. Cuenca Garcia , J. P. Cussonneau , J. E. Cutter , C. E. Dahl , V. D'Andrea , A. David , M. P. Decowski , J. B. Dent , F. F. Deppisch , L. de Viveiros , P. Di Gangi , A. Di Giovanni , S. Di Pede , J. Dierle , S. Diglio , J. E. Y. Dobson , M. Doerenkamp , D. Douillet , G. Drexlin , E. Druszkiewicz , D. Dunsky , K. Eitel , A. Elykov , T. Emken , R. Engel , S. R. Eriksen , M. Fairbairn , A. Fan , J. J. Fan , S. J. Farrell , S. Fayer , N. M. Fearon , A. Ferella , C. Ferrari , A. Fieguth , A. Fieguth , S. Fiorucci , H. Fischer , H. Flaecher , M. Flierman , T. Florek , R. Foot , P. J. Fox , R. Franceschini , E. D. Fraser , C. S. Frenk , S. Frohlich , T. Fruth , W. Fulgione , C. Fuselli , P. Gaemers , R. Gaior , R. J. Gaitskell , M. Galloway , F. Gao , I. Garcia Garcia , J. Genovesi , C. Ghag , S. Ghosh , E. Gibson , W. Gil , D. Giovagnoli , F. Girard , R. Glade-Beucke , F. Glück , S. Gokhale , A. de Gouvêa , L. Gráf , L. Grandi , J. Grigat , B. Grinstein , M. G. D. van der Grinten , R. Grössle , H. Guan , M. Guida , R. Gumbsheimer , C. B. Gwilliam , C. R. Hall , L. J. Hall , R. Hammann , K. Han , V. Hannen , S. Hansmann-Menzemer , R. Harata , S. P. Hardin , E. Hardy , C. A. Hardy , K. Harigaya , R. Harnik , S. J. Haselschwardt , M. Hernandez , S. A. Hertel , A. Higuera , C. Hils , S. Hochrein , L. Hoetzsch , M. Hoferichter , N. Hood , D. Hooper , M. Horn , J. Howlett , D. Q. Huang , Y. Huang , D. Hunt , M. Iacovacci , G. Iaquaniello , R. Ide , C. M. Ignarra , G. Iloglu , Y. Itow , E. Jacquet , O. Jahangir , J. Jakob , R. S. James , A. Jansen , W. Ji , X. Ji , F. Joerg , J. Johnson , A. Joy , A. C. Kaboth , A. C. Kamaha , K. Kanezaki , K. Kar , M. Kara , N. Kato , P. Kavrigin , S. Kazama , A. W. Keaveney , J. Kellerer , D. Khaitan , A. Khazov , G. Khundzakishvili , I. Khurana , B. Kilminster , M. Kleifges , P. Ko , M. Kobayashi , M. Kobayashi , D. Kodroff , G. Koltmann , A. Kopec , A. Kopmann , J. Kopp , L. Korley , V. N. Kornoukhov , E. V. Korolkova , H. Kraus , L. M. Krauss , S. Kravitz , L. Kreczko , V. A. Kudryavtsev , F. Kuger , J. Kumar , B. López Paredes , L. LaCascio , Q. Laine , H. Landsman , R. F. Lang , E. A. Leason , J. Lee , D. S. Leonard , K. T. Lesko , L. Levinson , C. Levy , I. Li , S. C. Li , T. Li , S. Liang , C. S. Liebenthal , J. Lin , Q. Lin , S. Lindemann , M. Lindner , A. Lindote , R. Linehan , W. H. Lippincott , X. Liu , K. Liu , J. Liu , J. Loizeau , F. Lombardi , J. Long , M. I. Lopes , E. Lopez Asamar , W. Lorenzon , C. Lu , S. Luitz , Y. Ma , P. A. N. Machado , C. Macolino , T. Maeda , J. Mahlstedt , P. A. Majewski , A. Manalaysay , A. Mancuso , L. Manenti , A. Manfredini , R. L. Mannino , N. Marangou , J. March-Russell , F. Marignetti , T. Marrodán Undagoitia , K. Martens , R. Martin , I. Martinez-Soler , J. Masbou , D. Masson , E. Masson , S. Mastroianni , M. Mastronardi , J. A. Matias-Lopes , M. E. McCarthy , N. McFadden , E. McGinness , D. N. McKinsey , J. McLaughlin , K. McMichael , P. Meinhardt , J. Menéndez , Y. Meng , M. Messina , R. Midha , D. Milisavljevic , E. H. Miller , B. Milosevic , S. Milutinovic , S. A. Mitra , K. Miuchi , E. Mizrachi , K. Mizukoshi , A. Molinario , A. Monte , C. M. B. Monteiro , M. E. Monzani , J. S. Moore , K. Morå , J. A. Morad , J. D. Morales Mendoza , S. Moriyama , E. Morrison , E. Morteau , Y. Mosbacher , B. J. Mount , J. Mueller , A. St. J. Murphy , M. Murra , D. Naim , S. Nakamura , E. Nash , N. Navaieelavasani , A. Naylor , C. Nedlik , H. N. Nelson , F. Neves , J. L. Newstead , K. Ni , J. A. Nikoleyczik , V. Niro , U. G. Oberlack , M. Obradovic , K. Odgers , C. A. J. O'Hare , P. Oikonomou , I. Olcina , K. Oliver-Mallory , A. Oranday , J. Orpwood , I. Ostrovskiy , K. Ozaki , B. Paetsch , S. Pal , J. Palacio , K. J. Palladino , J. Palmer , P. Panci , M. Pandurovic , A. Parlati , N. Parveen , S. J. Patton , V. Pěč , Q. Pellegrini , B. Penning , G. Pereira , R. Peres , Y. Perez-Gonzalez , E. Perry , T. Pershing , R. Petrossian-Byrne , J. Pienaar , A. Piepke , G. Pieramico , M. Pierre , M. Piotter , V. Pizella , G. Plante , T. Pollmann , D. Porzio , J. Qi , Y. Qie , J. Qin , N. Raj , M. Rajado Silva , K. Ramanathan , D. Ramírez García , J. Ravanis , L. Redard-Jacot , D. Redigolo , S. Reichard , J. Reichenbacher , C. A. Rhyne , A. Richards , Q. Riffard , G. R. C. Rischbieter , A. Rocchetti , S. L. Rosenfeld , R. Rosero , N. Rupp , T. Rushton , S. Saha , L. Sanchez , P. Sanchez-Lucas , D. Santone , J. M. F. dos Santos , I. Sarnoff , G. Sartorelli , A. B. M. R. Sazzad , M. Scheibelhut , R. W. Schnee , M. Schrank , J. Schreiner , P. Schulte , D. Schulte , H. Schulze Eissing , M. Schumann , T. Schwemberger , A. Schwenk , T. Schwetz , L. Scotto Lavina , P. R. Scovell , H. Sekiya , M. Selvi , E. Semenov , F. Semeria , P. Shagin , S. Shaw , S. Shi , E. Shockley , T. A. Shutt , R. Si-Ahmed , J. J. Silk , C. Silva , M. C. Silva , H. Simgen , F. Šimkovic , G. Sinev , R. Singh , W. Skulski , J. Smirnov , R. Smith , M. Solmaz , V. N. Solovov , P. Sorensen , J. Soria , T. J. Sparmann , I. Stancu , M. Steidl , A. Stevens , K. Stifter , L. E. Strigari , D. Subotic , B. Suerfu , A. M. Suliga , T. J. Sumner , P. Szabo , M. Szydagis , A. Takeda , Y. Takeuchi , P. -L. Tan , C. Taricco , W. C. Taylor , D. J. Temples , A. Terliuk , P. A. Terman , D. Thers , K. Thieme , Th. Thümmler , D. R. Tiedt , M. Timalsina , W. H. To , F. Toennies , Z. Tong , F. Toschi , D. R. Tovey , J. Tranter , M. Trask , G. C. Trinchero , M. Tripathi , D. R. Tronstad , R. Trotta , Y. D. Tsai , C. D. Tunnell , W. G. Turner , R. Ueno , P. Urquijo , U. Utku , A. Vaitkus , K. Valerius , E. Vassilev , S. Vecchi , V. Velan , S. Vetter , A. C. Vincent , L. Vittorio , G. Volta , B. von Krosigk , M. von Piechowski , D. Vorkapic , C. E. M. Wagner , A. M. Wang , B. Wang , Y. Wang , W. Wang , J. J. Wang , L. -T. Wang , M. Wang , Y. Wang , J. R. Watson , Y. Wei , C. Weinheimer , E. Weisman , M. Weiss , D. Wenz , S. M. West , T. J. Whitis , M. Williams , M. J. Wilson , D. Winkler , C. Wittweg , J. Wolf , T. Wolf , F. L. H. Wolfs , S. Woodford , D. Woodward , C. J. Wright , V. H. S. Wu , P. Wu , S. Wüstling , M. Wurm , Q. Xia , X. Xiang , Y. Xing , J. Xu , Z. Xu , D. Xu , M. Yamashita , R. Yamazaki , H. Yan , L. Yang , Y. Yang , J. Ye , M. Yeh , I. Young , H. B. Yu , T. T. Yu , L. Yuan , G. Zavattini , S. Zerbo , Y. Zhang , M. Zhong , N. Zhou , X. Zhou , T. Zhu , Y. Zhu , Y. Zhuang , J. P. Zopounidis , K. Zuber , J. Zupan

Sterile neutrinos with keV-scale masses are popular candidates for warm dark matter. In the most straightforward case they are produced via oscillations with active neutrinos. We introduce effective self-interactions of active neutrinos and…

High Energy Physics - Phenomenology · Physics 2022-04-06 Cristina Benso , Werner Rodejohann , Manibrata Sen , Aaroodd Ujjayini Ramachandran

We propose a simple extension of the standard model by adding a fourth generation vector-like lepton doublet and show that if the fourth neutrino is a massive pseudo-Dirac fermion with mass in the few hundred GeV range and mass splitting of…

High Energy Physics - Phenomenology · Physics 2015-06-12 Chiara Arina , Rabindra N. Mohapatra , Narendra Sahu

Weakly Interacting Massive Particles (WIMPs), are a leading candidate for the dark matter that is observed to constitute ~25% of the total mass-energy density of the Universe. The direct detection of relic WIMPs (those produced during the…

Instrumentation and Detectors · Physics 2017-08-23 Tarek Saab

A recently proposed dark matter WIMP has only second-order couplings to gauge bosons and itself. As a result, it has small annihilation, scattering, and creation cross-sections, and is consequently consistent with all current experiments…

Next-generation experiments allow for the possibility to testing the neutrino flavor oscillation model to very high levels of accuracy. Here, we explore the possibility that the dark matter in the current universe is made of two particles,…

High Energy Physics - Phenomenology · Physics 2021-01-05 Ilídio Lopes

One of the major challenges of modern physics is to decipher the nature of dark matter. Astrophysical observations provide ample evidence for the existence of an invisible and dominant mass component in the observable universe, from the…

Cosmology and Nongalactic Astrophysics · Physics 2015-09-04 Laura Baudis

Possible dark matter candidates are reviewed as well as indirect search methods based on annihilation or decay channels of these particles. Neutralino is presently the best particle candidate and its annihilation produces high energy…

Astrophysics · Physics 2016-08-16 José Antonio De Freitas Pacheco , Sébastien Peirani

After a short review of the arguments for the existence of Particle Dark Matter in the Universe, I list the most plausible candidates provided by particle physics, i.e. neutrinos, axions, and WIMPs. In each case I briefly describe how to…

High Energy Physics - Phenomenology · Physics 2007-05-23 Manuel Drees