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1
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34748859851
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Highly efficient harmonically tuned InP D-HBT push-push oscillators operating up to 287 GHz
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June
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Y. Baeyens, N. Weimann, V. Houtsma, J. Weiner, Y. Yang, J. Frackoviak, P. Roux, A. Tate, and Y. K. Chen, "Highly efficient harmonically tuned InP D-HBT push-push oscillators operating up to 287 GHz," in IEEE MTT-S Intern. Microwave Symp. Dig., pp. 341-344, June 2007.
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IEEE MTT-S Intern. Microwave Symp. Dig
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Baeyens, Y.1
Weimann, N.2
Houtsma, V.3
Weiner, J.4
Yang, Y.5
Frackoviak, J.6
Roux, P.7
Tate, A.8
Chen, Y.K.9
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2
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34748914327
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A SiGe monolithically integrated 278 GHz push-push oscillator
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June
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R. Wanner, R. Lachner, G. R. Olbrich, and P. Russer, "A SiGe monolithically integrated 278 GHz push-push oscillator," in IEEE MTT-S Intern. Microwave Symp. Dig., pp. 333-336, June 2007.
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(2007)
IEEE MTT-S Intern. Microwave Symp. Dig
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Wanner, R.1
Lachner, R.2
Olbrich, G.R.3
Russer, P.4
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3
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36749103786
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V. Radisic, D. Sawdai, D. Scott, W. R. Deal, L. Dang, D. Li, J. Chen, A. Fung, L. Samoska, T. Gaier, and R. Lai, Demonstration of a 311-GHz fundamental oscillator using InP HBT technology, IEEE Trans. Microwave Theory Tech., N 55, issue 11, Nov. 2007, pp. 2329-2335.
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V. Radisic, D. Sawdai, D. Scott, W. R. Deal, L. Dang, D. Li, J. Chen, A. Fung, L. Samoska, T. Gaier, and R. Lai, "Demonstration of a 311-GHz fundamental oscillator using InP HBT technology," IEEE Trans. Microwave Theory Tech., N vol. 55, issue 11, Nov. 2007, pp. 2329-2335.
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4
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57349118887
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324 GHz CMOS VCO using Linear Superposition Technique
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accepted at held in San Francisco, CA, Feb
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D. Huang, T. LaRocca, L. Samoska, A. Fung, and F. Chang, "324 GHz CMOS VCO using Linear Superposition Technique," accepted at the 2008 International Solid State Circuits Conference, to be held in San Francisco, CA, Feb., 2008.
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(2008)
the 2008 International Solid State Circuits Conference, to be
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Huang, D.1
LaRocca, T.2
Samoska, L.3
Fung, A.4
Chang, F.5
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5
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0029292254
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155- and 213-GHz AlInAs/GaInAs/InP HEMT MMIC oscillators
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April
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S. E. Rosenbaum, B. K. Kormanyos, L. M. Jelloian, M. Matloubian, A. S. Brown, L. E. Larson, L. D. Nguyen, M. A. Thompson, L. P. B. Katehi, and G. M. Rebeiz, "155- and 213-GHz AlInAs/GaInAs/InP HEMT MMIC oscillators," IEEE Transactions on Microwave Theory and Techniques, Volume 43, Issue 4, April 1995, pp. 927-932.
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IEEE Transactions on Microwave Theory and Techniques
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Rosenbaum, S.E.1
Kormanyos, B.K.2
Jelloian, L.M.3
Matloubian, M.4
Brown, A.S.5
Larson, L.E.6
Nguyen, L.D.7
Thompson, M.A.8
Katehi, L.P.B.9
Rebeiz, G.M.10
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6
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33847770325
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Demonstration of sub-millimeter wave fundamental oscillators using 35-nm InP HEMT technology
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March
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V. Radisic, X.B. Mei, W.R. Deal, W. Yoshida, P.H. Liu, J. Uyeda, M. Barsky, L. Samoska, A. Fung, T. Gaier, R. Lai, "Demonstration of sub-millimeter wave fundamental oscillators using 35-nm InP HEMT technology," IEEE Microwave and Wireless Components Letters, Volume 17, No. 3, March 2007, pp. 223-5.
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(2007)
IEEE Microwave and Wireless Components Letters
, vol.17
, Issue.3
, pp. 223-225
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Radisic, V.1
Mei, X.B.2
Deal, W.R.3
Yoshida, W.4
Liu, P.H.5
Uyeda, J.6
Barsky, M.7
Samoska, L.8
Fung, A.9
Gaier, T.10
Lai, R.11
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7
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0032654102
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High-gain 150-215-GHz MMIC amplifier with integral waveguide transitions
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July
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S. Weinreb, T. Gaier, M. Barsky, Y.C. Leong, L. Samoska, "High-gain 150-215-GHz MMIC amplifier with integral waveguide transitions," IEEE Microwave Guided Wave Lett., Vol. 7, July 1999, pp. 282-284.
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(1999)
IEEE Microwave Guided Wave Lett
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, pp. 282-284
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Weinreb, S.1
Gaier, T.2
Barsky, M.3
Leong, Y.C.4
Samoska, L.5
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8
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45249114166
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A submillimeter-wave HEMT amplifier module with integrated waveguide transitions operating above 300 GHz
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submitted to
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L. Samoska, W. R. Deal, G. Chattopadhyay, D. Pukala, A. Fung, T. Gaier, M. Soria, V. Radisic, X. B. Mei, and R. Lai, "A submillimeter-wave HEMT amplifier module with integrated waveguide transitions operating above 300 GHz," submitted to IEEE Trans. Microwave Theory Tech.
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IEEE Trans. Microwave Theory Tech
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Samoska, L.1
Deal, W.R.2
Chattopadhyay, G.3
Pukala, D.4
Fung, A.5
Gaier, T.6
Soria, M.7
Radisic, V.8
Mei, X.B.9
Lai, R.10
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