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1. Search for dark matter annual modulation with DarkSide-50

   https://doi.org/10.1103/PhysRevD.110.102006  

   Agnes, P; Albuquerque, I_F M; Alexander, T; Alton, A K; Ave, M; Back, H O; Batignani, G; Biery, K; Bocci, V; Bonivento, W M; et al (November 2024, Physical Review D)

   Dark matter may induce an event in an Earth-based detector, and its event rate is predicted to show an annual modulation as a result of the Earth’s orbital motion around the Sun. We searched for this modulation signature using the ionization signal of the DarkSide-50 liquid argon time projection chamber. No significant signature compatible with dark matter is observed in the electron recoil equivalent energy range above $40{\mathrm{eV}}_{\mathrm{ee}}$, the lowest threshold ever achieved in such a search. Published by the American Physical Society2024 

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2. Continuous gravitational waves: A new window to look for heavy nonannihilating dark matter

   https://doi.org/10.1103/PhysRevD.110.043006  

   Bhattacharya, Sulagna; Miller, Andrew L; Ray, Anupam (August 2024, Physical Review D)

   Sunlike stars can transmute into comparable mass black holes by steadily accumulating heavy nonannihilating dark matter particles over the course of their lives. If such stars form in binary systems, they could give rise to quasi-monochromatic, persistent gravitational waves, commonly known as continuous gravitational waves, as they inspiral toward one another. We demonstrate that next-generation space-based detectors, e.g., Laser Interferometer Space Antenna (LISA) and Big Bang Observer (BBO), can provide novel constraints on dark matter parameters (dark matter mass and its interaction cross-section with the nucleons) by probing gravitational waves from transmuted sunlike stars that are in close binaries. Our projected constraints depend on several astrophysical uncertainties and nevertheless are competitive with the existing constraints obtained from cosmological measurements as well as terrestrial direct searches, demonstrating a notable science case for these space-based gravitational wave detectors as probes of particle dark matter. Published by the American Physical Society2024 

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3. Beyond Hawking evaporation of black holes formed by dark matter in compact stars

   https://doi.org/10.1103/PhysRevD.111.L041306  

   Basumatary, Ujjwal; Raj, Nirmal; Ray, Anupam (February 2025, Physical Review D)

   The memory burden effect is an explicit resolution to the information paradox by which an evaporating black hole acquires quantum hair, which then suppresses its rate of mass loss with respect to the semiclassical Hawking rate. We show that this has significant implications for particle dark matter that captures in neutron stars and forms black holes that go on to consume the host star. In particular, we show that constraints on the nucleon scattering cross section and mass of spin-0 and spin- $1/2$dark matter would be extended by several orders of magnitude. Published by the American Physical Society2025 

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4. Search for Light Dark Matter in Low-Energy Ionization Signals from XENONnT

   https://doi.org/10.1103/PhysRevLett.134.161004  

   Aprile, E; Aalbers, J; Abe, K; Ahmed_Maouloud, S; Althueser, L; Andrieu, B; Angelino, E; Antón_Martin, D; Arneodo, F; Baudis, L; et al (April 2025, Physical Review Letters)

   We report on a blinded search for dark matter with single- and few-electron signals in the first science run of XENONnT relying on a novel detector response framework that is physics model dependent. We derive 90% confidence upper limits for dark matter-electron interactions. Heavy and light mediator cases are considered for the standard halo model and dark matter up-scattered in the Sun. We set stringent new limits on dark matter-electron scattering via a heavy mediator with a mass within $10–20\mathrm{MeV}/c^2$and electron absorption of axionlike particles and dark photons for $m_{\chi }$below $0.03\mathrm{keV}/c^2$. Published by the American Physical Society2025 

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5. Cosmological constraints on dark neutrino towers

   https://doi.org/10.1103/PhysRevD.111.015024  

   Anchordoqui, Luis A; Antoniadis, Ignatios; Lüst, Dieter; Peñaló_Castillo, Karem (January 2025, Physical Review D)

   We reexamine a dynamical dark matter model with Kaluza-Klein (KK) towers of gravitons and neutrinos fitting together in the dark dimension. We show that even though gravitational decays of neutrino KK towers have little impact in cosmology, the weak decay channel could have significant cosmological effects. Taking conservative upper bounds on the dark matter decay rate into two photons before reionization and on the number of effective extra neutrino species $\mathrm{\Delta }{N}_{\mathrm{eff}}$, we derive constraints on the conversion rate from active to sterile species despite the dependence of the mixing angle on the KK mode mass. We also provide counterarguments to a recent claim suggesting that the bounds on $\mathrm{\Delta }{N}_{\mathrm{eff}}$rule out micron-sized extra dimensions. Published by the American Physical Society2025 

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