Number-state expansions are derived for the squeezed states produced by four-wave mixing (modulation interaction and phase conjugation) in fibers.
Number-state expansions are derived for the squeezed states produced by four-wave mixing (modulation interaction and phase conjugation) in fibers.
Number-state expansions are derived for the squeezed states produced by four-wave mixing (modulation interaction and phase conjugation) in fibers.
A new class of light has been generated where the quantum uncertainty in measurements of the field can be reduced below the standard quantum noise limit.
A new class of light has been generated where the quantum uncertainty in measurements of the field can be reduced below the standard quantum noise limit.
A new class of light has been generated where the quantum uncertainty in measurements of the field can be reduced below the standard quantum noise limit.
A new class of light has been generated where the quantum uncertainty in measurements of the field can be reduced below the standard quantum noise limit.
A new class of light has been generated where the quantum uncertainty in measurements of the field can be reduced below the standard quantum noise limit.
A new class of light has been generated where the quantum uncertainty in measurements of the field can be reduced below the standard quantum noise limit.
An experimental study of enhancement of interferometric sensitivity using squeezed vacuum fluctuations will be described.
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