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Spin-rotation coupling observed in neutron interferometry

Armin Danner, Bülent Demirel, Wenzel Kersten, Hartmut Lemmel, Richard Wagner, Stephan Sponar, Yuji Hasegawa

2020npj Quantum Information22 citationsDOIOpen Access PDF

Abstract

Abstract Einstein’s theory of general relativity and quantum theory form the two major pillars of modern physics. However, certain inertial properties of a particle’s intrinsic spin are inconspicuous while the inertial properties of mass are well known. Here, by performing a neutron interferometric experiment, we observe phase shifts arising as a consequence of the spin’s coupling with the angular velocity of a rotating magnetic field. This coupling is a purely quantum mechanical extension of the Sagnac effect. The resulting phase shifts linearly depend on the frequency of the rotation of the magnetic field. Our results agree with the predictions derived from the Pauli–Schrödinger equation.

Topics & Concepts

PhysicsInertial frame of referenceCoupling (piping)InterferometryRotation (mathematics)Phase (matter)Quantum mechanicsSpin (aerodynamics)Classical mechanicsQuantumQuantum electrodynamicsNeutronGeneral relativityTheory of relativityAngular velocitySuperfluidityMagnetic fieldInductive couplingFictitious forceGravitationNeutron starSagnac effectRotating magnetic fieldAtomic and Subatomic Physics ResearchQuantum and Classical ElectrodynamicsPulsars and Gravitational Waves Research
Spin-rotation coupling observed in neutron interferometry | Litcius