科技报告详细信息
4-wave mixing for phase-matching free nonlinear optics in quantum cascade structures : LDRD 08-0346 final report.
Chow, Weng Wah ; Wanke, Michael Clement ; Allen, Dan G. ; Yang, Zhenshan ; Waldmueller, Ines
关键词: ATOMS;    COMMUNICATIONS;    EXPLORATION;    FLEXIBILITY;    LASERS;    LIGHT SOURCES;    MATRIX ELEMENTS;    MEDICINE;    NATIONAL DEFENSE;    NON;   
DOI  :  10.2172/993319
RP-ID  :  SAND2010-7369
PID  :  OSTI ID: 993319
Others  :  TRN: US201023%%445
美国|英语
来源: SciTech Connect
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【 摘 要 】

Optical nonlinearities and quantum coherences have the potential to enable efficient, high-temperature generation of coherent THz radiation. This LDRD proposal involves the exploration of the underlying physics using intersubband transitions in a quantum cascade structure. Success in the device physics aspect will give Sandia the state-of-the-art technology for high-temperature THz quantum cascade lasers. These lasers are useful for imaging and spectroscopy in medicine and national defense. Success may have other far-reaching consequences. Results from the in-depth study of coherences, dephasing and dynamics will eventually impact the fields of quantum computing, optical communication and cryptology, especially if we are successful in demonstrating entangled photons or slow light. An even farther reaching development is if we can show that the QC nanostructure, with its discrete atom-like intersubband resonances, can replace the atom in quantum optics experiments. Having such an 'artificial atom' will greatly improve flexibility and preciseness in experiments, thereby enhancing the discovery of new physics. This is because we will no longer be constrained by what natural can provide. Rather, one will be able to tailor transition energies and optical matrix elements to enhance the physics of interest. This report summarizes a 3-year LDRD program at Sandia National Laboratories exploring optical nonlinearities in intersubband devices. Experimental and theoretical investigations were made to develop a fundamental understanding of light-matter interaction in a semiconductor system and to explore how this understanding can be used to develop mid-IR to THz emitters and nonclassical light sources.

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