"Overdense plasma; Conversion; Emission; Tokamaks; Elektron Bernstein waves"@en . . "Urban, Jakub" . "9"^^ . . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . "First results from EBW emission diagnostics on COMPASS" . . . . . "136698" . "000311562900174" . "10"^^ . "10" . "Fuchs, Vladim\u00EDr" . . . "Weinzettl, Vladim\u00EDr" . . "10.1063/1.4733530" . "[646E9CE792EB]" . . "First results from EBW emission diagnostics on COMPASS" . "RIV/61389021:_____/12:00381973" . "Aftanas, Milan" . . . "First results from EBW emission diagnostics on COMPASS"@en . "P(7G10072), P(GA202/08/0419), Z(AV0Z20430508)" . "RIV/61389021:_____/12:00381973!RIV13-GA0-61389021" . "Preinhaelter, Josef" . . . . "Zajac, Jarom\u00EDr" . . . "First results from EBW emission diagnostics on COMPASS"@en . . . "Nanobashvili, S." . . "0034-6748" . "Review of Scientific Instruments" . . . "COMPASS tokamak shots at low magnetic field feature overdense plasmas during the extended current flat-top phase. The first harmonic of the electron cyclotron emission is completely cutoff for O and X modes and so the emission caused by electron Bernstein waves (EBWs) propagating obliquely with respect to the magnetic field and undergoing so called EBW-X-O conversion process can be observed. We perform an angular scan of the EBW emission during a set of comparable shots in order to determine the optimum antenna direction. A weak dependence of the radiative temperature on the antenna angles indicates an influence of multiple reflections from the vessel wall. The low temperature at the mode conversion region is responsible for the collisional damping of EBW, which can explain several times lower measured radiative temperature than the electron temperature measured by the Thomson scattering system."@en . . "3"^^ . . "B\u00F6hm, Petr" . "83" . "\u017D\u00E1\u010Dek, Franti\u0161ek" . . "COMPASS tokamak shots at low magnetic field feature overdense plasmas during the extended current flat-top phase. The first harmonic of the electron cyclotron emission is completely cutoff for O and X modes and so the emission caused by electron Bernstein waves (EBWs) propagating obliquely with respect to the magnetic field and undergoing so called EBW-X-O conversion process can be observed. We perform an angular scan of the EBW emission during a set of comparable shots in order to determine the optimum antenna direction. A weak dependence of the radiative temperature on the antenna angles indicates an influence of multiple reflections from the vessel wall. The low temperature at the mode conversion region is responsible for the collisional damping of EBW, which can explain several times lower measured radiative temperature than the electron temperature measured by the Thomson scattering system." . . . . . "B\u00EDlkov\u00E1, Petra" .