2014
DOI: 10.1007/s11141-014-9452-6
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Two-Channel Generator of the 8-mm Wavelength Range for Radiation with Subgigawatt Power Level Pulses

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Cited by 30 publications
(19 citation statements)
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“…Stability of the radiation phase was also observed in the RBWO experiments at frequencies of 10 [2, 3] and 37 GHz [4,5]. Special devices were used in these experiments in obtaining a sharper front of voltage pulse in order to satisfy the theoretical condition of phase stabilization [5,6] (1)where T is the period of high frequency oscillations and C = [eI 0 Z/(2mc 2 )] 1/3 is the generalized Pierce parameter. In the latter formula, I 0 is the amplitude of an electron beam current; Z is its connective resistance with synchronous harmonics of the operating wave; e and m are the electron charge and mass, respectively; and γ 0 is the relativistic factor relating to diode voltage amplitude U 0 .…”
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confidence: 90%
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“…Stability of the radiation phase was also observed in the RBWO experiments at frequencies of 10 [2, 3] and 37 GHz [4,5]. Special devices were used in these experiments in obtaining a sharper front of voltage pulse in order to satisfy the theoretical condition of phase stabilization [5,6] (1)where T is the period of high frequency oscillations and C = [eI 0 Z/(2mc 2 )] 1/3 is the generalized Pierce parameter. In the latter formula, I 0 is the amplitude of an electron beam current; Z is its connective resistance with synchronous harmonics of the operating wave; e and m are the electron charge and mass, respectively; and γ 0 is the relativistic factor relating to diode voltage amplitude U 0 .…”
mentioning
confidence: 90%
“…In the latter formula, I 0 is the amplitude of an electron beam current; Z is its connective resistance with synchronous harmonics of the operating wave; e and m are the electron charge and mass, respectively; and γ 0 is the relativistic factor relating to diode voltage amplitude U 0 . Temporal factor T U is determined through the maximal derivative at the front of the volt age pulse and its amplitude,When condition (1) is satisfied, the growth duration of the beam current determined analogously to (2) cer tainly has a lesser magnitude [5]. The spectral compo nents from the front of a current then have weakly vari able phases in the frequency band of interaction [6].…”
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“…Measurements of the MICD impedance, performed with a technique described elsewhere [41] [Fig. 3(a)], and the beam current waveforms recorded with the use of a collector pickup [42], connected instead of the SWS, have shown that the current pulse leading edge and the voltage pulse applied to the cathode are substantially different in waveform because of the nonlinear dynamics of explosive electron emission [43]. This is a typical situation where the accelerating voltage pulse sharpened with an NLTL has no prepulse during which conditions would arise for the transition of field emission to explosive electron emission [44].…”
Section: A Experimental Arrangement and Simulation Approachesmentioning
confidence: 99%
“…The initiation is described of the generation of superradiant pulses [1-3] by emission from the leading edge of the electron bunch. In combination with the proven experimentally picosecond stability of explosive emission from a cold cathode [4], it provides the possibility for strong correlation of phase of the SR pulses with respect to the leading edge of the electron pulse [5].…”
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confidence: 99%