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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.

We analyze simple model which demonstrates the feasibility of using optical squeezed states to enhance the detection sensitivity limits of frequency modulation laser absorption spectroscopy.

Number-state expansions are derived for the previous termsqueezednext term states produced by four-wave mixing (modulation interaction and phase conjugation) in fibers.

This department provides an overview the progress the authors have made to the emerging area of embedded and mobile forms of on-device deep learning.

We are engaged in an experimental effort to generate and detect squeezed vacuum fluctuations at microwave frequencies using a Josephson parametric amplifier.

In this paper we propose a general method to quantify how "quantum" a set of quantum states is.

Even though ATM seems to be clearly the wave of the future, some performance analyses indicate that the combination of strinent performance requirements (e.g., 10 sup (-9) cell blocking probabiliti

This paper describes modification s to many of the standard algorithms used in computing eigenvalues and eigenvectors of matrices.