By Xi-Cheng Zhang
Introduction to THz Wave Photonics examines the technology and know-how concerning terahertz wave applied sciences, taking a twin technique among featuring the field’s heritage whereas concurrently delivering an outline of present expertise. the most recent study in constructing THz components reminiscent of electromagnetic waves are offered, besides an creation to non-stop wave THz know-how. Authors X.-C. Zhang and Jingzhou Xu position specific emphasis on pulsed THz know-how, between many different points of THz know-how together with:
- Complete insurance of THz wave spectroscopy and imaging
- A dialogue of 3D THz wave imaging
- Applications of THz know-how within the protection box as relating to explosives and dangerous materials
- THz purposes in bio-engineering and biomedicine
Introduction to THz Wave Photonics is the suitable publication for educational researchers, training engineers and scholars drawn to studying extra concerning the topic.
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Additional resources for Introduction to THz Wave Photonics
Kawase, “Terahertz imaging system based on a backward-wave oscillator,” Appl. Opt. 43, 30, 5637–5646 (2004). 71. E. Mueller, “Submillimeter wave lasers”, Wiley Encyclopedia of Electrical and Electronics Engineering, vol. 20, pp. 597–615, Editor J. G. Webster, John Wiley & Sons Inc, New York (1999). 72. R. Densing, A. Erstling, M. Gogolewski, H. P. Gemund, G. Lundershausen, and A. Gatesman, “Effective far-infrared laser operation with mesh couplers,” Infrared Phys. 33, 3, 219–226 (1992). 73. G. P.
Morris, and Y. R. Shen, “Theory of far-infrared generation by optical mixing,” Phys. Rev. A 15, 3, 1143–1156 (1977). 82. E. R. Brown, K. A. McIntosh, K. B. Nichols, and C. L. 8 THz in low-temperature-grown GaAs,” Appl. Phys. Lett. 66, 3, 285–287 (1995). 83. K. Kawase, M. Sato, T. Taniuchi, and H. Ito, “Coherent tunable THz wave generation from LiNbO3 with monolithic grating coupler,” Appl. Phys. Lett. 68, 18, 2483–2485 (1996). 84. J. Shikata, K. Kawase, M. Sato, T. Taniuchi, and H. Ito, “Enhancement of THz-wave output from LiNbO3 optical parametric oscillators by cryogenic cooling,” Opt.
89. S. Komiyama, O. Astaflev, V. Antonov, T. Kutsuwa, and H. Hirai, “A single-photon detector in the far-infrared range,” Nature 403, 405–407 (2000). 90. M. R. Stone, M. Naftaly, R. E. Miles, and J. R. Fletcher, D. P. Steenson, “Electrical and radiation characteristics of semi-large photoconductive terahertz emitters,” IEEE Trans. Microwave Theory Tech. 52, 10, 2420–2429 (2004). 91. G. J. Dolan, T. G. Phillips, and D. P. Woody, “Low noise 115 GHz mixing in superconductor oxide barrier tunnel junctions,” Appl.