V. Cataudella scite author profile

We present the results of a search for dark matter weakly interacting massive particles (WIMPs) in the mass range below 20 GeV/c^{2} using a target of low-radioactivity argon with a 6786.0 kg d exposure. The data were obtained using the DarkSide-50 apparatus at Laboratori Nazionali del Gran Sasso. The analysis is based on the ionization signal, for which the DarkSide-50 time projection chamber is fully efficient at 0.1 keVee. The observed rate in the detector at 0.5 keVee is about 1.5 event/keVee/kg/d and is almost entirely accounted for by known background sources. We obtain a 90% C.L. exclusion limit above 1.8 GeV/c^{2} for the spin-independent cross section of dark matter WIMPs on nucleons, extending the exclusion region for dark matter below previous limits in the range 1.8-6 GeV/c^{2}.

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DarkSide-20k: A 20 tonne two-phase LAr TPC for direct dark matter detection at LNGS

Aalseth

et al. 2018

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Detection of Zak phases and topological invariants in a chiral quantum walk of twisted photons

et al. 2017

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Topological insulators are fascinating states of matter exhibiting protected edge states and robust quantized features in their bulk. Here we propose and validate experimentally a method to detect topological properties in the bulk of one-dimensional chiral systems. We first introduce the mean chiral displacement, an observable that rapidly approaches a value proportional to the Zak phase during the free evolution of the system. Then we measure the Zak phase in a photonic quantum walk of twisted photons, by observing the mean chiral displacement in its bulk. Next, we measure the Zak phase in an alternative, inequivalent timeframe and combine the two windings to characterize the full phase diagram of this Floquet system. Finally, we prove the robustness of the measure by introducing dynamical disorder in the system. This detection method is extremely general and readily applicable to all present one-dimensional platforms simulating static or Floquet chiral systems.

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Constraints on Sub-GeV Dark-Matter–Electron Scattering from the DarkSide-50 Experiment

et al. 2018

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We present new constraints on sub-GeV dark-matter particles scattering off electrons based on 6780.0 kg d of data collected with the DarkSide-50 dual-phase argon time projection chamber. This analysis uses electroluminescence signals due to ionized electrons extracted from the liquid argon target. The detector has a very high trigger probability for these signals, allowing for an analysis threshold of three extracted electrons, or approximately 0.05 keVee. We calculate the expected recoil spectra for dark matter-electron scattering in argon and, under the assumption of momentum-independent scattering, improve upon existing limits from XENON10 for dark-matter particles with masses between 30 and 100 MeV/c^{2}.

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DarkSide-50 532-day dark matter search with low-radioactivity argon

Agnes¹,

Albuquerque²,

Alexander³

et al. 2018

Phys. Rev. D

222

209

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The DarkSide-50 direct-detection dark matter experiment is a dual-phase argon time projection chamber operating at Laboratori Nazionali del Gran Sasso. This paper reports on the blind analysis of a (16 660 ± 270) kg d exposure using a target of low-radioactivity argon extracted from underground sources. We find no events in the dark matter selection box and set a 90 % C.L. upper limit on the dark matter-nucleon spin-independent cross section of 1.14 × 10 −44 cm 2 (3.78 × 10 −44 cm 2 , 3.43 × 10 −43 cm 2 ) for a WIMP mass of 100 GeV/c 2 (1 TeV/c 2 , 10 TeV/c 2 ).

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Validity of the Franck-Condon Principle in the Optical Spectroscopy: Optical Conductivity of the Fröhlich Polaron

et al. 2006

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The optical absorption of the Fröhlich polaron model is obtained by an approximation-free Diagrammatic Monte Carlo method and compared with two new approximate approaches that treat lattice relaxation effects in different ways. We show that: i) a strong coupling expansion, based on the the Franck-Condon principle, well describes the optical conductivity for large coupling strengths (α > 10); ii) a Memory Function Formalism with phonon broadened levels reproduces the optical response for weak coupling strengths (α < 6) taking the dynamic lattice relaxation into account. In the coupling regime 6 < α < 10 the optical conductivity is a rapidly changing superposition of both Franck-Condon and dynamic contributions.

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Statistical moments of quantum-walk dynamics reveal topological quantum transitions

et al. 2016

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Many phenomena in solid-state physics can be understood in terms of their topological properties. Recently, controlled protocols of quantum walk (QW) are proving to be effective simulators of such phenomena. Here we report the realization of a photonic QW showing both the trivial and the non-trivial topologies associated with chiral symmetry in one-dimensional (1D) periodic systems. We find that the probability distribution moments of the walker position after many steps can be used as direct indicators of the topological quantum transition: while varying a control parameter that defines the system phase, these moments exhibit a slope discontinuity at the transition point. Numerical simulations strongly support the conjecture that these features are general of 1D topological systems. Extending this approach to higher dimensions, different topological classes, and other typologies of quantum phases may offer general instruments for investigating and experimentally detecting quantum transitions in such complex systems.

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Sharp Transition for Single Polarons in the One-Dimensional Su-Schrieffer-Heeger Model

et al. 2010

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We study a single polaron in the Su-Schrieffer-Heeger (SSH) model using four different techniques (three numerical and one analytical). Polarons show a smooth crossover from weak to strong coupling, as a function of the electron-phonon coupling strength λ, in all models where this coupling depends only on phonon momentum q. In the SSH model the coupling also depends on the electron momentum k; we find it has a sharp transition, at a critical coupling strength λ(c), between states with zero and nonzero momentum of the ground state. All other properties of the polaron are also singular at λ=λ(c). This result is representative of all polarons with coupling depending on k and q, and will have important experimental consequences (e.g., in angle-resolved photoemission spectroscopy and conductivity experiments).

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V. Cataudella

Low-Mass Dark Matter Search with the DarkSide-50 Experiment

DarkSide-20k: A 20 tonne two-phase LAr TPC for direct dark matter detection at LNGS

Detection of Zak phases and topological invariants in a chiral quantum walk of twisted photons

Constraints on Sub-GeV Dark-Matter–Electron Scattering from the DarkSide-50 Experiment

DarkSide-50 532-day dark matter search with low-radioactivity argon

Validity of the Franck-Condon Principle in the Optical Spectroscopy: Optical Conductivity of the Fröhlich Polaron

Statistical moments of quantum-walk dynamics reveal topological quantum transitions

Sharp Transition for Single Polarons in the One-Dimensional Su-Schrieffer-Heeger Model

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