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Search for anti-quark nuggets via their interaction with the LHC beam
/ Zioutas, K (Patras U.) ; Zhitnitsky, A (British Columbia U.) ; Zamantzas, C (CERN) ; Semertzidis, Y K (IBS, Daejeon) ; Ruimi, O M (Hebrew U. ; Helmholtz Inst., Mainz ; Mainz U.) ; Ozbozduman, K (Bogazici U.) ; Maroudas, M (Hamburg U.) ; Kryemadhi, A (Unlisted, US, PA) ; Karuza, M (Rijeka U.) ; Horns, D (Hamburg U.) et al.
Anti-quark nuggets (AQNs) have been suggested to solve the dark matter (DM) and the missing antimatter problem in the universe and have been proposed as an explanation of various observations. [...]
arXiv:2403.05608.
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2024 - 4.
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Quantum Sensing for Dark Matter and Gravitational Waves
/ Beadle, Carl (Geneva U.) ; Bekker, H (Helmholtz Inst., Mainz) ; Blas, D (Barcelona, IFAE) ; Budker, D (UC, Berkeley) ; Calatroni, S (CERN) ; D'Agnolo, R T (Saclay) ; Dıaz-Morcillo, A (Cartagena Politecnica U.) ; Ellis, S A R (Geneva U.) ; Gatti, C (Frascati) ; Garcıa-Irastorza, I (Zaragoza U.) et al.
Searches for wave-like dark matter can benefit from efforts to develop experimental sensitivity beyond the Standard Quantum Limit. [...]
2025
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Axion Dark Matter
/ Adams, C.B. (Columbia U.) ; Aggarwal, N. (Northwestern U.) ; Agrawal, A. (Chicago U.) ; Balafendiev, R. (ITMO U., St. Petersburg) ; Bartram, C. (Washington U., Seattle) ; Baryakhtar, M. (Washington U., Seattle) ; Bekker, H. (Helmholtz Inst., Mainz ; Mainz U.) ; Belov, P. (ITMO U., St. Petersburg) ; Berggren, K.K. (MIT) ; Berlin, A. (Fermilab) et al.
Axions are well-motivated dark matter candidates with simple cosmological production mechanisms. [...]
arXiv:2203.14923 ; FERMILAB-CONF-22-996-PPD-T.
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96.
eConf - Fermilab Library Server - Fulltext - Fulltext
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Opportunities for Fundamental Physics Research with Radioactive Molecules
/ Arrowsmith-Kron, Gordon (Michigan State U.) ; Athanasakis-Kaklamanakis, Michail (CERN ; Leuven U.) ; Au, Mia (CERN ; Mainz U.) ; Ballof, Jochen (CERN ; Michigan State U.) ; Berger, Robert (Philipps U. Marburg) ; Borschevsky, Anastasia (U. Groningen, VSI) ; Breier, Alexander A. (Kassel U.) ; Buchinger, Fritz (McGill U.) ; Budker, Dmitry (Darmstadt, GSI ; UC, Berkeley) ; Caldwell, Luke (JILA, Boulder ; U. Colorado, Boulder ; Colorado U.) et al.
Molecules containing short-lived, radioactive nuclei are uniquely positioned to enable a wide range of scientific discoveries in the areas of fundamental symmetries, astrophysics, nuclear structure, and chemistry. Recent advances in the ability to create, cool, and control complex molecules down to the quantum level, along with recent and upcoming advances in radioactive species production at several facilities around the world, create a compelling opportunity to coordinate and combine these efforts to bring precision measurement and control to molecules containing extreme nuclei. [...]
arXiv:2302.02165.-
2024-07-12 - 119 p.
- Published in : Rep. Prog. Phys. 87 (2024) 084301
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Cold atoms in space: community workshop summary and proposed road-map
/ Alonso, Iván (Balearic Islands U.) ; Alpigiani, Cristiano (Washington U., Seattle) ; Altschul, Brett (South Carolina U.) ; Araújo, Henrique (Imperial Coll., London) ; Arduini, Gianluigi (CERN) ; Arlt, Jan (Aarhus U.) ; Badurina, Leonardo (King's Coll. London) ; Balaž, Antun (Belgrade, Inst. Phys.) ; Bandarupally, Satvika (Florence U. ; INFN, Florence) ; Barish, Barry C. (LIGO Lab., Caltech) et al.
We summarize the discussions at a virtual Community Workshop on Cold Atoms in Space concerning the status of cold atom technologies, the prospective scientific and societal opportunities offered by their deployment in space, and the developments needed before cold atoms could be operated in space. The cold atom technologies discussed include atomic clocks, quantum gravimeters and accelerometers, and atom interferometers. [...]
arXiv:2201.07789; FERMILAB-CONF-22-694-V; CERN-TH-2022-004.-
2022-11-20 - 64 p.
- Published in : EPJ Quant. Technol.: 9 (2022) , no. 1, pp. 30
Fulltext: bb4d1d31d6edd562e94939489bfc05d6 - PDF; 2201.07789 - PDF; Fulltext from Publisher: PDF; External link: Fermilab Library Server
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New Horizons: Scalar and Vector Ultralight Dark Matter
/ Antypas, D. (Mainz U. ; Helmholtz Inst., Mainz) ; Banerjee, A. (Weizmann Inst.) ; Bartram, C. (Washington U., Seattle) ; Baryakhtar, M. (Washington U., Seattle) ; Betz, J. (U. Delaware, Newark) ; Bollinger, J.J. (NIST, Boulder) ; Boutan, C. (PNL, Richland) ; Bowring, D. (Fermilab) ; Budker, D. (Helmholtz Inst., Mainz ; Mainz U. ; UC, Berkeley) ; Carney, D. (LBL, Berkeley) et al.
The last decade has seen unprecedented effort in dark matter model building at all mass scales coupled with the design of numerous new detection strategies. [...]
arXiv:2203.14915 ; FERMILAB-PUB-22-262-AD-PPD-T.
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Physics Opportunities with the Gamma Factory
/ Budker, Dmitry (Mainz U. ; Helmholtz Inst., Mainz ; UC, Berkeley) ; Gorchtein, Mikhail (Mainz U.) ; Krasny, Mieczyslaw Witold (Paris U., VI-VII ; CERN) ; Pálffy, Adriana (Erlangen - Nuremberg U.) ; Surzhykov, Andrey (Braunschweig Tech. U. ; Braunschweig, Phys. Tech. Bund.)
We are delighted to introduce to the readership of Annalen der Physik this special issue, which comes in the wake of a workshop with the same title that was held virtually at the Mainz Institute for Theoretical Physics in November–December 2020..
2022 - 2 p.
- Published in : Ann. Phys. (Leipzig) 534 (2022) 2200004
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Expanding Nuclear Physics Horizons with the Gamma Factory
/ Budker, Dmitry (Mainz U. ; Helmholtz Inst., Mainz) ; Berengut, Julian C. (New South Wales U. ; Heidelberg, Max Planck Inst.) ; Flambaum, Victor V. (New South Wales U. ; Mainz U. ; Helmholtz Inst., Mainz ; Massey U., NZIAS) ; Gorchtein, Mikhail (Mainz U.) ; Jin, Junlan (USTC, Hefei) ; Karbstein, Felix (Helmholtz Inst., Mainz ; Jena U.) ; Krasny, Mieczyslaw Witold (Paris U., VI-VII ; CERN) ; Litvinov, Yuri A. (Darmstadt, GSI) ; Pálffy, Adriana (Erlangen - Nuremberg U., Theorie III) ; Pascalutsa, Vladimir (Mainz U.) et al.
The Gamma Factory (GF) is an ambitious proposal, currently explored within the CERN Physics Beyond Colliders program, for a source of photons with energies up to $\approx 400\,$MeV and photon fluxes (up to $\approx 10^{17}$ photons per second) exceeding those of the currently available gamma sources by orders of magnitude. The high-energy (secondary) photons are produced via resonant scattering of the primary laser photons by highly relativistic partially-stripped ions circulating in the accelerator. [...]
arXiv:2106.06584.-
2022-01-31 - 69 p.
- Published in : Ann. Phys. (Leipzig) (2022) , pp. 2100284
Fulltext: PDF; Fulltext from publisher: PDF;
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