Charles W. Clark, National Institute of Standards and Technology
“Twisting the neutron wavefunction”
Wave motions in water were already familiar in antiquity. The mathematical representation of waves in physics today is essentially the same as that first provided by d’Alembert and Euler in the mid-18th century. Yet it was only in the early 1990s that physicists managed to control a basic property of light waves: their capability of swirling around their own axis of propagation. During the past decade such techniques of control have also been developed for quantum particles: atoms, electrons and neutrons.
I will present a simple description of these phenomena, emphasizing the most basic aspects of wave and quantum particle motion, and showing how these are used in our recent work on twisting neutron wavefunctions [1-3].
1. Controlling Neutron Orbital Angular Momentum, C. W. Clark, R. Barankov, M. G. Huber, M. Arif, D. G. Cory and D. A. Pushin, Nature 525, 504 (2015)
2.Spin-orbit states of neutron wave packets, J. Nsofini, D. Sarenac, C. J. Wood, D. G. Cory, M. Arif, C. W. Clark, M. G. Huber, and D. A. Pushin, Phys. Rev. A 94, 013605 (2016)
3. Holography with a neutron interferometer, D. Sarenac, M. G. Huber, B. Heacock, M. Arif, C. W. Clark, D. G. Cory, C. B. Shahi and D. A. Pushin, Optics Express 24, 22528 (2016)
QNC 0101