Litcius/Paper detail

Search for exotic parity-violation interactions with quantum spin amplifiers

Yuanhong Wang, Y. Huang, Chang Guo, Min Jiang, Xiang Kang, Haowen Su, Yushu Qin, Wei Ji, D. Hu, Xinhua Peng, Dmitry Budker

2023Science Advances21 citationsDOIOpen Access PDF

Abstract

Quantum sensing provides sensitive tabletop tools to search for exotic spin-dependent interactions beyond the standard model, which have attracted great attention in theories and experiments. Here, we develop a technique based on Spin Amplifier for Particle PHysIcs REsearch (SAPPHIRE) to resonantly search for exotic interactions, specifically parity-odd spin-spin interactions. The present technique effectively amplifies exotic interaction fields by a factor of about 200 while being insensitive to spurious magnetic fields. Our studies, using such a quantum amplification technique, explore the parity-violation interactions mediated by a new vector boson in the challenging parameter space (force range between 3 mm and 1 km) and set the most stringent constraints on axial-vector electron-neutron couplings, substantially improving previous limits by five orders of magnitude. Moreover, our constraints on axial-vector couplings between nucleons reach into a hitherto unexplored parameter space. The present constraints complement the existing astrophysical and laboratory studies on potential standard model extensions.

Topics & Concepts

PhysicsParity (physics)Parameter spaceSpurious relationshipSpin (aerodynamics)BosonQuantumPhysics beyond the Standard ModelParticle physicsTheoretical physicsQuantum mechanicsComputer scienceStatisticsMachine learningThermodynamicsMathematicsAtomic and Subatomic Physics ResearchQuantum, superfluid, helium dynamicsDark Matter and Cosmic Phenomena