Add to ORKGQuantum fluctuations in a nondegenerate optical parametric amplifier (NOPA) are investigated experimentally with a squeezed state coupled into the internal idler mode of the NOPA. Reductions of the inherent quantum noise of the amplifier are observed with a minimum noise level 0.7 dB below the usual noise level of the amplifier with its idler mode in a vacuum state. With two correlated quantum fields as the amplifier's inputs and proper adjustment of the gain of the amplifier, it is shown that the amplifier's intrinsic quantum noise can be completely suppressed so that noise-free amplification is achieved. It is also shown that the NOPA, when coupled to either a squeezed state or a nonclassically correlated state, can realize quantum tappin...
Amplitude-squeezed states are generated from a room-temperature semiconductor laser using a combinat...
The purpose of a phase-preserving linear amplifier is to make a small signal larger, so that it can ...
Optical Parametric Amplifiers (OPA) have been of wide interest for the past decades due to their pot...
One of the important functions in a communication network is the distribution of information. It is ...
Methods for the enhancement of optical quantum nondemolition (QND) measurements are discussed. We re...
Amplification of signals is an elemental function for many information processing systems and commun...
We present a model for a linear amplifier which adds phase-dependent noise to the input signal. This...
We demonstrate that a phase-insensitive parametric amplifier, when coupled to a quantum correlated s...
In this thesis we study the quantum statistical properties of noise in several quantum optical syste...
A quantum analysis of the above-threshold intensity fluctuations in a nondegenerate parametric oscil...
We demonstrate an elegant way of handling optical signals which are generated using squeezed states ...
The redistribution of intrinsic quantum noise in the quadratures of the field generated in a sub-thr...
It is a fundamental principle of quantum theory that an unknown state cannot be copied or, as a cons...
We show that amplitude-squeezed states may be produced by driving a feedback-controlled cavity with ...
We investigate the quantum noise properties of lasers in which both the laser and pump form resonant...
Amplitude-squeezed states are generated from a room-temperature semiconductor laser using a combinat...
The purpose of a phase-preserving linear amplifier is to make a small signal larger, so that it can ...
Optical Parametric Amplifiers (OPA) have been of wide interest for the past decades due to their pot...
One of the important functions in a communication network is the distribution of information. It is ...
Methods for the enhancement of optical quantum nondemolition (QND) measurements are discussed. We re...
Amplification of signals is an elemental function for many information processing systems and commun...
We present a model for a linear amplifier which adds phase-dependent noise to the input signal. This...
We demonstrate that a phase-insensitive parametric amplifier, when coupled to a quantum correlated s...
In this thesis we study the quantum statistical properties of noise in several quantum optical syste...
A quantum analysis of the above-threshold intensity fluctuations in a nondegenerate parametric oscil...
We demonstrate an elegant way of handling optical signals which are generated using squeezed states ...
The redistribution of intrinsic quantum noise in the quadratures of the field generated in a sub-thr...
It is a fundamental principle of quantum theory that an unknown state cannot be copied or, as a cons...
We show that amplitude-squeezed states may be produced by driving a feedback-controlled cavity with ...
We investigate the quantum noise properties of lasers in which both the laser and pump form resonant...
Amplitude-squeezed states are generated from a room-temperature semiconductor laser using a combinat...
The purpose of a phase-preserving linear amplifier is to make a small signal larger, so that it can ...
Optical Parametric Amplifiers (OPA) have been of wide interest for the past decades due to their pot...