Tips for preparing a search: • Keep it simple - don't use too many different parameters. • Separate search groups with parentheses and Booleans. Note the Boolean sign must be in upper-case. • Example: (diode OR solid-state) AND laser [search contains 'diode' or 'solid-state' and laser] • Example: (photons AND downconversion) - pump [search contains both 'photons' and 'downconversion' but not 'pump'] • Improve efficiency in your search by using wildcards. • Asterisk ( * ) -- Example: 'elect*' retrieves documents containing 'electron,' 'electronic,' and 'electricity' • Question mark (?) -- Example: 'gr?y' retrieves documents containing 'grey' or 'gray' • Use quotation marks ' ' around specific phrases where you want the entire phrase only.
• For best results, use the separate Authors field to search for author names. • Author name searching: • Use these formats for best results: Smith or J Smith • Use a comma to separate multiple people: J Smith, RL Jones, Macarthur • Note: Author names will be searched in the keywords field, also, but that may find papers where the person is mentioned, rather than papers they authored. Abstract We have shown that the electromagnetic coupling of a grating-gate plasmonic detector to terahertz radiation can be considerably enhanced by placing the detector onto a membrane substrate and using a narrow-slit grating-gate. The responsivity of the membrane detector can be enhanced by a factor of 50 as compared to a conventional grating-gate plasmonic detector on a bulk substrate due to enhanced electromagnetic coupling between the plasmons and terahertz radiation. ©2010 Optical Society of America OSA Recommended Articles. Lisauskas, W. Von Spiegel, S.
Boubanga-Tombet, A. El Fatimy, D. Coquillat, F. Dyakonova, W.
The RPD first and foremost user of the RPD was the USSR. The RPD was a standard issue weapon until it was replaced by the RPK and PK. Best female songs of all time. The RPD was widely exported and produced under license in. -m.a-metodika-zhenskih-rukodelij-rukovodstvo.pdf 2019-01-30T14:18:37+14:00.peerclick.com/postgresql-linux-jeff-perkins-muska-lipmanpremier-trade.pdf.com/postimsya-po-grecheski-postnye-bljuda-grecheskoj-monastyrskoj.pdf.
Roskos, “Terahertz imaging with GaAs field-effect transistors,” Electron. Lett. 44(6), 408–409 (2008). Otsuji, and M. Shur, “Plasma mechanisms of resonant terahertz detection in a two-dimensional electron channel with split gates,” J. Phys. 103(1), 014504 (2008). Tsymbalov, and M. Shur, “Plasma wave instability and amplification of terahertz radiation in field-effect-transistor arrays,” J.
Matter 20(38), 384208 (2008). Allen, “‘Enhanced responsivity in membrane isolated split-grating-gate plasmonic terahertz detectors,” Appl.
Lett. 90(18), 181127 (2007). Tsymbalov, and D. Fateev, “Higher-order plasmon resonances in GaN-based field-effect transistor arrays,” Int. High Speed Electron.
Syst. 17(3), 557–566 (2007). Stillman and M. Shur, “Closing the gap: Plasma wave electronic terahertz detectors,” J. Optoelectron. 2(3), 209–221 (2007). Kachorovskii, and S. Rumyantsev, “Room-temperature plasma waves resonant detection of sub-terahertz radiation by nanometer field-effect transistor,” Appl.
Lett. 87(5), 052107 (2005). Gaska, “Nonresonant detection of terahertz radiation by silicon-on-insulator MOSFETs,” Electron.
Lett. 41(7), 447–448 (2005). Allen, “Single-quantum-well grating-gated terahertz plasmon detectors,” Appl. Lett. 87(19), 193507 (2005). Hanabe, and O. Ogawara, “Terahertz plasma wave resonance of two-dimensional electrons in InGaP/InGaAs/GaAs high-electron-mobility transistors,” Appl. Lett. 85(11), 2119–2121 (2004).
Lusakowski, T. Popov, and M.
Shur, “Terahertz emission by plasma waves in 60 nm gate high electron mobility transistors,” Appl. Lett. 84(13), 2331–2333 (2004). Ryzhii, and M. Shur, “Characteristics of a terahertz photomixer based on a high-electron mobility transistor structure with optical input through the ungated regions,” J. Phys. 95(4), 2084–2089 (2004). Allen, “A plasmonic terahertz detector with a monolithic hot electron bolometer,” J.
Matter 21(19), 195803 (2009). Allen, “‘Enhanced responsivity in membrane isolated split-grating-gate plasmonic terahertz detectors,” Appl. Uchebnik anglijskogo yazika za 9 klass ayapova. Lett. 90(18), 181127 (2007). Allen, “Far-infrared spectrum analysis using plasmon modes in a quantum-well transistor,” IEEE Photon. Lett. 18(18), 1925–1927 (2006). Allen, “Single-quantum-well grating-gated terahertz plasmon detectors,” Appl.
Lett. 87(19), 193507 (2005). Polischuk, T. Horing, and M. Wanke, “Absorption of terahertz radiation by plasmon modes in a grid-gated double-quantum-well field-effect transistor,” J. Phys. 94(5), 3556–3562 (2003). Burke, and J.
Eisenstein, “Terahertz photoconductivity and plasmon modes in double-quantum-well field-effect transistors,” Appl. Lett. 81(9), 1627–1629 (2002). Kamgar, and S. Coppersmith, “High-frequency conductivity ijn silicon inversion layers: Drude relaxation, 2D plasmons and minigaps in a surface superlattice,” Surf.