We exploit analogies between tunneling electrons and evanescent electromagnetic waves to construct and operate an optical Larmor clock. In the electronic Larmor clock, the tunneling time is proportional to the amount of precession the electronic spin undergoes while interacting with a weak, barrier-confined magnetic field. In the optical scheme, the analogy to the spin is made via Stokes parameters, and an optical retarder is shown to be analogous to the magnetic field. A magnetized tunnel barrier consists of a thin film of uniaxial liquid crystal between two high-index prisms. To operate the clock, we measure the Stokes parameters of the polarized laser beam transmitted through the barrier. By varying the wavelength of the incident light, we use the clock to study tunneling through barriers of various thicknesses. © 1996 The American Physical Society.

• Received 26 May 1995

DOI:https://doi.org/10.1103/PhysRevA.53.434