• Medientyp: E-Artikel
  • Titel: Engineered phase matching for broad frequency-tunability in terahertz-wave generation from quasi-phase-matched GaP devices
  • Beteiligte: Tomita, Isao
  • Erschienen: AIP Publishing, 2015
  • Erschienen in: Journal of Applied Physics
  • Umfang:
  • Sprache: Englisch
  • DOI: 10.1063/1.4913477
  • ISSN: 0021-8979; 1089-7550
  • Schlagwörter: General Physics and Astronomy
  • Zusammenfassung: <jats:p>A method to obtain broad frequency-tunability in terahertz (THz)-wave generation is proposed using a quasi-phase-matched GaP device that originally has narrow frequency-tunability. In this method, the phase matching curve for the GaP device is engineered via the GaP dispersion relation by shifting the signal frequency to 333.1 THz (0.90 μm) so that a flat part (i.e., a frequency-independent part) can be formed on the phase matching curve. By selecting an appropriate quasi-phase matching (QPM) period Λ such that QPM occurs at the center of the flat part of the curve, we can obtain a frequency-tunable width of 1.34 THz (37.8 μm) at around a THz-wave frequency of 3.26 THz (92.0 μm). This width is 9.9 times wider than that obtained using a similar quasi-phase-matched GaP device at a signal frequency of 193.5 THz (1.55 μm) without the reformed phase matching curve. The advantage of the proposed method is that, unlike a previous method that used a chirped χ(2) grating, broad frequency-tunability is obtained without reducing the high conversion efficiency produced by QPM. For comparison, a reduction in the conversion efficiency for the chirped χ(2) grating method is demonstrated when a 9.9 times wider frequency-tunable width is achieved.</jats:p>
  • Beschreibung: <jats:p>A method to obtain broad frequency-tunability in terahertz (THz)-wave generation is proposed using a quasi-phase-matched GaP device that originally has narrow frequency-tunability. In this method, the phase matching curve for the GaP device is engineered via the GaP dispersion relation by shifting the signal frequency to 333.1 THz (0.90 μm) so that a flat part (i.e., a frequency-independent part) can be formed on the phase matching curve. By selecting an appropriate quasi-phase matching (QPM) period Λ such that QPM occurs at the center of the flat part of the curve, we can obtain a frequency-tunable width of 1.34 THz (37.8 μm) at around a THz-wave frequency of 3.26 THz (92.0 μm). This width is 9.9 times wider than that obtained using a similar quasi-phase-matched GaP device at a signal frequency of 193.5 THz (1.55 μm) without the reformed phase matching curve. The advantage of the proposed method is that, unlike a previous method that used a chirped χ(2) grating, broad frequency-tunability is obtained without reducing the high conversion efficiency produced by QPM. For comparison, a reduction in the conversion efficiency for the chirped χ(2) grating method is demonstrated when a 9.9 times wider frequency-tunable width is achieved.</jats:p>
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