Your search keyword '"Hochberg, Yonit"' showing total 6 results

1. Constraints on axion-like dark matter from a SERF comagnetometer.

Author

Bloch, Itay M., Shaham, Roy, Hochberg, Yonit, Kuflik, Eric, Volansky, Tomer, and Katz, Or

Subjects

AXIONS, DARK matter, HYPOTHETICAL particles, NEUTRONS, MAGNETIC fields, PROTONS

Abstract

Ultralight axion-like particles are well-motivated relics that might compose the cosmological dark matter and source anomalous time-dependent magnetic fields. We report on terrestrial bounds from the Noble And Alkali Spin Detectors for Ultralight Coherent darK matter (NASDUCK) collaboration on the coupling of axion-like particles to neutrons and protons. The detector uses nuclei of noble-gas and alkali-metal atoms and operates in the Spin-Exchange Relaxation-Free (SERF) regime, achieving high sensitivity to axion-like dark matter fields. Conducting a month-long search, we cover the mass range of 1.4 × 10−12 eV/c2 to 2 × 10−10 eV/c2 and provide limits which supersede robust astrophysical bounds, and improve upon previous terrestrial constraints by over two orders of magnitude for many masses within this range for protons, and up to two orders of magnitude for neutrons. These are the sole reliable terrestrial bounds reported on the coupling of protons with axion-like dark matter, covering an unexplored terrain in its parameter space. Axions are hypothetical particles that constitute leading candidates for the identity of dark matter. Here, the authors improve previous exclusion bounds on axion-like particles in the range of 1.4–200 peV, and report direct terrestrial limits on the coupling of protons and neutrons with axion-like dark matter. [ABSTRACT FROM AUTHOR]

Published

2023

2. Super-resonant dark matter.

Author

Csáki, Csaba, Gomes, Andrew, Hochberg, Yonit, Kuflik, Eric, Langhoff, Kevin, and Murayama, Hitoshi

Abstract

We introduce Super-Resonant Dark Matter, a model of self-interacting dark matter based on the low energy effective theory of supersymmetric QCD. The structure of the theory ensures a resonant enhancement of the self-interactions of the low energy mesons, since their mass ratio is set by the number of colors and flavors. The velocity dependence of the resonantly enhanced self-interactions allows such theories to accommodate puzzles in small scale structure that arise from dark matter halos of different sizes. The dark matter mass is then predicted to be around 3–4 MeV, with its abundance set by freeze-in via a kinetically mixed dark photon. [ABSTRACT FROM AUTHOR]

Published

2022

3. Axion-like relics: new constraints from old comagnetometer data.

Author

Bloch, Itay M., Hochberg, Yonit, Kuflik, Eric, and Volansky, Tomer

Abstract

The noble-alkali comagnetometer, developed in recent years, has been shown to be a very accurate measuring device of anomalous magnetic-like fields. An ultra-light relic axion-like particle can source an anomalous field that permeates space, allowing for its detection by comagnetometers. Here we derive new constraints on relic axion-like particles interaction with neutrons and electrons from old comagnetometer data. We show that the decade-old experimental data place the most stringent terrestrial constraints to date on ultra-light axion-like particles coupled to neutrons. The constraints are comparable to those from stellar cooling, providing a complementary probe. Future planned improvements of comagnetometer measurements through altered geometry, constituent content and data analysis techniques could enhance the sensitivity to axion-like relics coupled to nucleons or electrons by many orders of magnitude. [ABSTRACT FROM AUTHOR]

Published

2020

4. Higgs couplings to fermions: 2HDM with MFV.

Author

Dery, Avital, Efrati, Aielet, Hiller, Gudrun, Hochberg, Yonit, and Nir, Yosef

Abstract

We clarify several subtleties concerning the implementation of minimal flavor violation (MFV) in two Higgs doublet models. We derive all the exact and approximate predictions of MFV for the neutral scalar ( h, H, A) Yukawa couplings to fermions. We point out several possible tests of this framework at the LHC. [ABSTRACT FROM AUTHOR]

Published

2013

5. Predictions from heavy new physics interpretation of the top forward-backward asymmetry.

Author

Delaunay, Cédric, Gedalia, Oram, Hochberg, Yonit, and Soreq, Yotam

Abstract

We derive generic predictions at hadron colliders from the large forward-backward asymmetry observed at the Tevatron, assuming the latter arises from heavy new physics beyond the Standard Model. We use an effective field theory approach to characterize the associated unknown dynamics. By fitting the Tevatron t \bar t data we derive constraints on the form of the new physics. Furthermore, we show that heavy new physics explaining the Tevatron data generically enhances at high invariant masses both the top pair production cross section and the charge asymmetry at the LHC. This enhancement can be within the sensitivity of the 8 TeV run, such that the 2012 LHC data should be able to exclude a large class of models of heavy new physics or provide hints for its presence. The same new physics implies a contribution to the forward-backward asymmetry in bottom pair production at low invariant masses of order a permil at most. [ABSTRACT FROM AUTHOR]

Published

2012

6. Flavor changing processes in supersymmetric models with hybrid gauge- and gravity-mediation.

Author

Hiller, Gudrun, Hochberg, Yonit, and Nir, Yosef

Abstract

We consider supersymmetric models where gauge mediation provides the dominant contributions to the soft supersymmetry breaking terms while gravity mediation provides sub-dominant yet non-negligible contributions. We further assume that the gravity-mediated contributions are subject to selection rules that follow from a Froggatt-Nielsen symmetry. This class of models constitutes an example of viable and natural non-minimally flavor violating models. The constraints from K0−K̄0 mixing imply that the modifications to the Standard Model predictions for Bd−B̄d and Bs−B̄s mixing are generically at most at the percent level, but can be of order ten percent for large tan β. The modifications for D0−D̄0 mixing are generically at most of order a few percent, but in a special subclass of models they can be of order one. We point out ΔB = 1 processes relevant for flavor violation in hybrid mediation. [ABSTRACT FROM AUTHOR]

Published

2009