B. A. Levitan scite author profile

We consider the physics of an optomechanical cavity subject to coherent two-phonon driving, i.e. degenerate parametric amplification of the mechanical mode. We show that in such a system, the cavity mode can effectively "inherit" parametric driving from the mechanics, yielding phase-sensitive amplification and squeezing of optical signals reflected from the cavity. We also demonstrate how such a system can be used to perform single-quadrature detection of a near-resonant narrow-band force applied to the mechanics with extremely low added noise from the optics. The system also exhibits strong differences from a conventional degenerate parametric amplifier: in particular, the cavity spectral function can become negative, indicating a negative effective photon temperature.

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High-Efficiency Measurement of an Artificial Atom Embedded in a Parametric Amplifier

Eddins

Kreikebaum

Toyli

et al. 2019

Phys. Rev. X

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A crucial limit to measurement efficiencies of superconducting circuits comes from losses involved when coupling to an external quantum amplifier. Here, we realize a device circumventing this problem by directly embedding a two-level artificial atom, comprised of a transmon qubit, within a flux-pumped Josephson parametric amplifier. Surprisingly, this configuration is able to enhance dispersive measurement without exposing the qubit to appreciable excess backaction. This is accomplished by engineering the circuit to permit high-power operation that reduces information loss to unmonitored channels associated with the amplification and squeezing of quantum noise. By mitigating the effects of off-chip losses downstream, the on-chip gain of this device produces end-toend measurement efficiencies of up to 80%. Our theoretical model accurately describes the observed interplay of gain and measurement backaction, and delineates the parameter space for future improvement. The device is compatible with standard fabrication and measurement techniques, and thus provides a route for definitive investigations of fundamental quantum effects and quantum control protocols. arXiv:1806.05276v1 [quant-ph]

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Ka-Band Gyrotron Traveling-Wave Tubes With the Highest Continuous-Wave and Average Power

Samsonov

Gachev

Денисов

et al. 2014

IEEE Trans. Electron Devices

119

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The results of experimental investigation of two Ka-band gyrotron traveling-wave tube (gyro-TWT) amplifiers with helically corrugated waveguides are presented. The first tube produces pulsed output power of 130-160 kW within the frequency range of 33.1-35.5 GHz and is capable of operating with a 10% duty factor. Reliability of its major components in the high average power operation regime (about 10 kW) was proven in a continuous-wave (CW) experiment. The second gyro-TWT amplifier delivered CW power of up to 7.7 kW with −3-dB bandwidth of 2.6 GHz and −1-dB bandwidth of 2.1 GHz. Effective implementation of single-stage depressed collectors (to the best of our knowledge, for the first time for gyro-TWTs) enabled the electron efficiencies as high as 36% for the pulsed tube and 33% for the CW tube to be achieved at operation at the second cyclotron harmonic.

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A megawatt power millimeter-wave phased-array radar

Tolkachev¹,

Levitan²,

Solovjev³

et al. 2000

IEEE Aerosp. Electron. Syst. Mag.

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Effect in Normal Man of Hyperglycemia and Glycosuria on Excretion and Reabsorption of Phosphate

Levitan¹

1951

Journal of Applied Physiology

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B. A. Levitan

Optomechanics with two-phonon driving

High-Efficiency Measurement of an Artificial Atom Embedded in a Parametric Amplifier

Ka-Band Gyrotron Traveling-Wave Tubes With the Highest Continuous-Wave and Average Power

A megawatt power millimeter-wave phased-array radar

Effect in Normal Man of Hyperglycemia and Glycosuria on Excretion and Reabsorption of Phosphate

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