Nature, Vol.387, No.6632, 471-475, 1997
Measurement of the Quantum States of Squeezed-Light
A state of a quantum-mechanical system is completely described by a density matrix or a phase-space distribution such as the Wigner function. The complete family of squeezed states of light (states that have less uncertainty in one observable than does the vacuum state) have been generated using an optical parametric amplifier, and their density matrices and Wigner functions have been reconstructed from measurements of the quantum statistics of their electric fields.
Keywords:OPTICAL HOMODYNE TOMOGRAPHY;DENSITY-MATRIX;PROBABILITY-DISTRIBUTIONS;PHOTON DISTRIBUTION;WIGNER FUNCTION;PHASE;OSCILLATOR;CONVERSION;VACUUM;FIELD