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Pendellösung interferometry probes the neutron charge radius, lattice dynamics, and fifth forces

Benjamin Heacock, Takuhiro Fujiie, Robert W. Haun, Albert Henins, Katsuya Hirota, Takuya Hosobata, Michael G. Huber, Masaaki Kitaguchi, Dmitry A. Pushin, Hirohiko Shimizu, Masahiro Takeda, Robert Valdillez, Yutaka Yamagata, Albert R. Young

2021Science32 citationsDOIOpen Access PDF

Abstract

Setting bounds on a fifth force Some extensions to the Standard Model of particle physics posit the existence of a fifth force to complement the existing four fundamental forces. To set bounds on the strength of such an interaction, experiments on vastly different length scales have been performed. Heacock et al . used an unusual method called Pendellösung interferometry to measure the neutron structure factors of silicon. The momentum dependence of the structure factors enabled the researchers to put more stringent bounds on the strength of a type of fifth force called the Yukawa force, as well as measure the charge radius of the neutron. —JS

Topics & Concepts

Structure factorPhysicsSiliconNeutronGermaniumInterferometryComputational physicsRADIUSOpticsLattice (music)Charge radiusSquare (algebra)RadiationCharge (physics)Yukawa potentialCondensed matter physicsAtomic physicsNanometreMolecular physicsSquare latticeLength scaleMaterials scienceRoot mean squareCharge densityNeutron radiationNeutron diffractionQuantum and Classical ElectrodynamicsForce Microscopy Techniques and ApplicationsPulsars and Gravitational Waves Research
Pendellösung interferometry probes the neutron charge radius, lattice dynamics, and fifth forces | Litcius