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Quantum cascade laser (QCL) phase-locked system using solid-state semiconductor source harmonic as reference source

A quantum cascade and semiconductor technology, applied in the field of terahertz signal source phase-locked systems, can solve problems such as difficulties in preparation, limitations, and output power reduction

Inactive Publication Date: 2012-08-01
ZIJINSHAN ASTRONOMICAL OBSERVATORY CHINESE ACAD OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Such reference signal sources, such as solid semiconductor sources, have sharply reduced output power at higher frequency bands (above 1.5 THz), and are very difficult to prepare, while superlattice harmonic generators increase with the harmonic order in the THz high frequency band. The output power is also sharply reduced, which will be greatly limited in practical applications

Method used

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  • Quantum cascade laser (QCL) phase-locked system using solid-state semiconductor source harmonic as reference source
  • Quantum cascade laser (QCL) phase-locked system using solid-state semiconductor source harmonic as reference source

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Embodiment Construction

[0013] now attached figure 1 Further illustrate with embodiment.

[0014] figure 1 It is a terahertz quantum cascade laser phase-locked system with a solid-state semiconductor source harmonic as a reference source. This system includes a first beam splitter 1, a second beam splitter 2, a band-pass filter 5, and A superconducting thermal electron mixer 6, an intermediate frequency amplifying unit 8, and a phase-locking unit 10, a 2.7 THz quantum cascade laser 4 is used as a terahertz signal source, and the output signal is sent to the first beam splitter, and a 900 GHz frequency band solid-state semiconductor source 3 is used as a terahertz signal source. The Hertz low-frequency signal source outputs the signal to the second beam splitter, the DC bias unit 7 of the terahertz mixer is connected to the superconducting thermal electron mixer 6, and the DC bias unit 9 of the intermediate frequency amplifier unit is connected to the intermediate frequency amplifier unit 8, The int...

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Abstract

The invention discloses a quantum cascade laser (QCL) phase-locked system using a solid-state semiconductor source harmonic as a reference source. The QCL phase-locked system comprises a first wave beam separator, a second wave beam separator, a band-pass filter, a terahertz frequency mixer, an intermediate-frequency amplification unit and a phase-lock unit which are connected sequentially, wherein a terahertz QCL outputs a signal to the first wave beam separator, and a solid-state semiconductor source higher harmonic outputs a signal to the second wave beam separator; the first wave beam separator and the second wave beam separator couple the output signal of the terahertz QCL and the signal of the solid-state semiconductor source higher harmonic to the terahertz frequency mixer respectively, and the frequency mixer uses the solid-state semiconductor source higher harmonic as a phase-lock reference; an intermediate-frequency signal obtained after the frequency mixing of the terahertz frequency mixer is amplified via the intermediate-frequency amplification unit at first, and then conveyed to the phase-lock unit; and the phase-locked performs phase-lock processing on the intermediate-frequency signal, so as to realize the phase lock of the terahertz QCL.

Description

technical field [0001] The invention relates to a terahertz signal source phase-locked system, in particular to a terahertz quantum cascade based on a high-sensitivity superconducting thermal electron mixer and a low-frequency signal source (such as a solid-state semiconductor source) high-order harmonics as a reference source Laser lock-in system. Background technique [0002] Commonly used signal sources in the terahertz frequency band mainly include solid semiconductor sources (such as Gunn oscillators and frequency multiplier combinations), vacuum tube signal sources (such as return wave tube oscillators), far-infrared gas lasers, and quantum cascade lasers. Except for far-infrared gas lasers, the operating frequencies of the above-mentioned commonly used terahertz signal sources are generally affected by external conditions. For example, the operating frequencies of free-running Gunn oscillators and terahertz quantum cascade lasers are affected by ambient temperature fl...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01S1/02
Inventor 缪巍张文史生才
Owner ZIJINSHAN ASTRONOMICAL OBSERVATORY CHINESE ACAD OF SCI
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