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2003 Conference Publication A generalized local time-step scheme for the FVTD method for efficient simulation of microwave antennasFumeaux, Christophe, Baumann, Dirk, Leuchtmann, Pascal and Vahldieck, Rüdiger (2003). A generalized local time-step scheme for the FVTD method for efficient simulation of microwave antennas. IEEE Computer Society. doi: 10.1109/EUMC.2003.1262326 |
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2002 Journal Article Two dimensional array of antenna-coupled microbolometersGonzález, F. J., Gritz, M. A., Fumeaux, C. and Boreman, G. D. (2002). Two dimensional array of antenna-coupled microbolometers. International Journal of Infrared and Millimeter Waves, 23 (5), 785-797. doi: 10.1023/A:1015722821951 |
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2000 Journal Article Thermal impedance model of electrostatic discharge effects on microbolometersGonzález, F. J., Fumeaux, C., Aida, J. and Boreman, G. D. (2000). Thermal impedance model of electrostatic discharge effects on microbolometers. Microwave and Optical Technology Letters, 26 (5), 291-293. doi: 10.1002/1098-2760(20000905)26:53.0.CO;2-A |
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2000 Journal Article Responsivity of infrared antenna-coupled microbolometers for air-side and substrate-side illuminationAlda, Javier, Fumeaux, Christophe, Gritz, Michael A., Spencer, David and Boreman, Glenn D. (2000). Responsivity of infrared antenna-coupled microbolometers for air-side and substrate-side illumination. Infrared Physics and Technology, 41 (1), 1-9. doi: 10.1016/S1350-4495(99)00036-5 |
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2000 Journal Article Measurement of the resonant lengths of infrared dipole antennasFumeaux, Christophe, Gritz, Michael A., Codreanu, Iulian, Schaich, William L., González, Francisco J. and Boreman, Glenn D. (2000). Measurement of the resonant lengths of infrared dipole antennas. Infrared Physics and Technology, 41 (5), 271-281. doi: 10.1016/S1350-4495(00)00047-5 |
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1999 Journal Article Microstrip antenna-coupled infrared detectorCodreanu, I., Fumeaux, C., Spencer, D. F. and Boreman, G. D. (1999). Microstrip antenna-coupled infrared detector. Electronics Letters, 35 (25), 2166-2167. doi: 10.1049/el:19991486 |
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1999 Journal Article Lithographic antennas at visible frequenciesFumeaux, Christophe, Alda, Javier and Boreman, Glenn D. (1999). Lithographic antennas at visible frequencies. Optics Letters, 24 (22), 1629-1631. doi: 10.1364/ol.24.001629 |
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1999 Journal Article Deconvolution method for two-dimensional spatial-response mapping of lithographic infrared antennasAlda, Javier, Fumeaux, Christophe, Codreanu, Iulian, Schaefer, Jason A. and Boreman, Glenn D. (1999). Deconvolution method for two-dimensional spatial-response mapping of lithographic infrared antennas. Applied Optics, 38 (19), 3993-4000. doi: 10.1364/ao.38.003993 |
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1999 Journal Article Spatial impulse response of lithographic infrared antennasFumeaux, Christophe, Boreman, Glenn D., Herrmann, Werner, Kneubühl, Fritz Kurt and Rothuizen, Hugo (1999). Spatial impulse response of lithographic infrared antennas. Applied Optics, 38 (1), 37-46. doi: 10.1364/ao.38.000037 |
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1998 Journal Article Tunable polarization response of a planar asymmetric-spiral infrared antennaBoreman, G. D., Fumeaux, C., Herrmann, W., Kneubühl, F. K. and Rothuizen, H. (1998). Tunable polarization response of a planar asymmetric-spiral infrared antenna. Optics Letters, 23 (24), 1912-1914. doi: 10.1364/OL.23.001912 |
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1998 Conference Publication Mixing of 28-THz CO2-laser radiation by nanometer thin film Ni-NiO-Ni diodes with difference frequencies up to 176 GHzFumeaux, C., Kneubühl, Fritz K., Herrmann, W., Rothuizen, Hugo, Lipphardt, Burghard and Weiss, Carl O. (1998). Mixing of 28-THz CO2-laser radiation by nanometer thin film Ni-NiO-Ni diodes with difference frequencies up to 176 GHz. doi: 10.1117/12.317583 |
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1998 Journal Article Nanometer thin-film Ni–NiO–Ni diodes for detection and mixing of 30 THz radiationFumeaux, C., Herrmann, W., Kneubühl, F.K. and Rothuizen, H. (1998). Nanometer thin-film Ni–NiO–Ni diodes for detection and mixing of 30 THz radiation. Infrared Physics & Technology, 39 (3), 123-183. doi: 10.1016/s1350-4495(98)00004-8 |
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1998 Journal Article Nanometer thin-film Ni-NiO-Ni diodes for mixing 28 THz CO 2 -laser emissions with difference frequencies up to 176 GHzFumeaux, C., Herrmann, W., Kneubühl, F.K., Rothuizen, H., Lipphardt, B. and Weiss, C.O. (1998). Nanometer thin-film Ni-NiO-Ni diodes for mixing 28 THz CO 2 -laser emissions with difference frequencies up to 176 GHz. Applied Physics B: Lasers and Optics, 66 (3), 327-332. doi: 10.1007/s003400050396 |
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1998 Conference Publication Mixing of 28 THz CO/sub 2/-laser radiation by nanometer thin-film Ni-NiO-Ni diodes with difference frequencies up to 176 GHzFumeaux, C., Herrmann, W., Kneubuhl, K., Rothuizen, H., Lipphardt, B. and Weiss, C.O. (1998). Mixing of 28 THz CO/sub 2/-laser radiation by nanometer thin-film Ni-NiO-Ni diodes with difference frequencies up to 176 GHz. Third International Kharkov Symposium 'Physics and Engineering of Millimeter and Submillimeter Waves'. MSMW'98, Kharkov, Ukraine, 17 September 1998. Piscataway, NJ United States: Institute of Electrical and Electronics Engineers. doi: 10.1109/msmw.1998.758930 |
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1997 Journal Article Polarization response of asymmetric-spiral infrared antennasFumeaux, C., Boreman, G. D., Herrmann, W., Rothuizen, H. and Kneubühl, F. K. (1997). Polarization response of asymmetric-spiral infrared antennas. Applied Optics, 36 (25), 6485-6490. doi: 10.1364/ao.36.006485 |
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1997 Journal Article Mixing of 28 THz (10.7 μm) CO2-laser radiation by nanometer thin-film Ni-NiO-Ni diodes with difference frequencies up to 176 GHzFumeaux, C., Herrmann, W., Kneubühl, F. K., Rothuizen, H., Lipphardt, B. and Weiss, C. O. (1997). Mixing of 28 THz (10.7 μm) CO2-laser radiation by nanometer thin-film Ni-NiO-Ni diodes with difference frequencies up to 176 GHz. Infrared Physics and Technology, 38 (7), 393-396. doi: 10.1016/S1350-4495(97)00039-X |
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1996 Conference Publication Mixing and Detection of10/spl mu/m Infrared Laser Radiation By The First Nnometer Thin-Film Ni-NiO-Ni Diodes with Intergrated AntennasFumeaux, C. and Herrmann, W. (1996). Mixing and Detection of10/spl mu/m Infrared Laser Radiation By The First Nnometer Thin-Film Ni-NiO-Ni Diodes with Intergrated Antennas. European Meeting on Lasers and Electro-Optics CLEOE-96, Hamburg, Germany, 8-13 September 1996. Piscataway, NJ United States: Institute of Electrical and Electronics Engineers. doi: 10.1109/cleoe.1996.562360 |
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1996 Journal Article Mixing of 30 THz laser radiation with nanometer thin-film Ni-NiO-Ni diodes and integrated bow-tie antennasFumeaux, C., Herrmann, W., Rothuizen, H., De Natale, P. and Kneubühl, F. K. (1996). Mixing of 30 THz laser radiation with nanometer thin-film Ni-NiO-Ni diodes and integrated bow-tie antennas. Applied Physics B: Lasers and Optics, 63 (2), 135-140. doi: 10.1007/BF01095263 |
