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This work has been supported by the Russian Foundation for Basic Research through Grant 03-02-17219 and by the Russian Academy of Sciences Program Novel Materials and Structures. W.K. acknowledges a support from CNRSprogramm New THz Emitters and Detectors, Region Languedoc Roussillon, and from the French Ministry of the Research and New Technologies program ACI Nanosciences and Nanotechnologies.

References [1] M.S. Shur, V. Ryzhii. In.: Terahertz Sources and Systems, ed.

by R. Miles, P. Harrisson and D. Lippens (Dordrecht, Kluwer, 2001) p. 169.

[2] M. Dyakonov, M. Shur. Phys. Rev. Lett., 71, 2465 (1993).

Figure 4. Scattering length of the slot diode as a function of the [3] M. Dyakonov, M. Shur. IEEE Trans. Electron. Dev., 43, frequency for different electron scattering rates: = 2 1013 s-(1996).

(curve 1); 7 1012 s-1 (curve 2); 2.3 1012 s-1 (curve 3); = [4] M.S. Shur, J.-Q. L. IEEE Trans. Microwave Theory and (curve 4). Other parameters of the diode are the same as those in Techniques, 48, 750 (2000).

Fig. 3.

[5] W. Knap, V. Kachorovskii, Y. Deng, S. Rumyantsev, J.-Q. L, R. Gaska, M.S. Shur, G. Simin, X. Nu, M. Asif Khan, S.A. Saylor, L.C. Brunel. J. Appl. Phys., 91, 9346 (2002).

[6] W. Knap, Y. Deng, S. Rumyantsev, J.-Q. L, M.S. Shur, of plasma oscillations even with no electron scattering in C.A. Saylor, L.C. Brunel. Appl. Phys. Lett., 80, 3433 (2002).

the channel. The width of the scattering resonance in the [7] X.G. Peralta, S.G. Allen, M.C. Wanke, N.E. Harff, J.A. Simabsence of electron scattering (see curve 4 in Fig. 4) is mons, M.P. Lilly, J.L. Reno, P.J. Burke, J.P. Eisenstein. Appl.

entirely of the radiative damping origin. To minimize an Phys. Lett., 81, 1627 (2002).

, 2005, 39, . Resonant terahertz response of a slot diode with a two-dimensional electron channel [8] W. Knap, Y. Deng, S. Rumyantsev, M.S. Shur. Appl. Phys.

Lett., 81, 4637 (2002).

[9] V.V. Popov, O.V. Polischuk, T.V. Teperik, X.G. Peralta, S.J. Allen, N.J.M. Horing, M.C. Wanke. J. Appl. Phys., 94, 3556 (2003).

[10] V.V. Popov, T.V. Teperik, O.V. Polischuk, X.G. Peralta, S.L. Allen, N.J.M. Horing, M.C. Wanke. Phys. Solid State, 46, 153 (2004).

[11] Y. Deng, R. Kersting, J. Xu, R. Ascazubi, Xi-C. Zhang, M.S. Shur, R. Gaska, G.S. Simin, M. Asif Khan, V. Ryzhii.

Appl. Phys. Lett., 84, 70 (2004).

[12] W. Knap, J. Lusakowski, T. Parenty, S. Bollaert, A. Cappy, V.V. Popov, M.S. Shur. Appl. Phys. Lett., 84, 2331 (2004).

[13] A.V. Antonov, V.I. Gavrilenko, E.V. Demidov, S.V. Morosov, A.A. Dubinov, J. Lusakowski, W. Knap, N. Dyakonova, E. Kaminska, A. Piotrowska, K. Goloszewska, M.S. Shur.

Phys. Solid State, 46, 146 (2004).

[14] P.J. Burke, I.B. Spielman, J.P. Eisenstein, L.N. Pfeiffer, K.W. West. Appl. Phys. Lett., 76, 745 (2000).

[15] V. Ryzhii, A. Satou, M.S. Shur. J. Appl. Phys., 93, 10 (2003).

[16] R.G. Newton. Scattering theory of waves and particles (N. Y., McGraw-Hill, 1966).

[17] J. Alsmeier, E. Batke, J.P. Kotthaus. Phys. Rev. B, 40, 12 (1989).

.. 11 , 2005, 39, .

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