Chemistry Reference
In-Depth Information
103. C. Lukas, M. Müller, V. Schulz-von der Gathen, and H.F. Döbele. Spatially resolved
electron density distribution in an rf excited parallel plate plasma reactor by 1 mm
microwave interferometry.
Plasma Sources Sci. Technol.
, 8:94-99, 1999.
104. P. Frank, G. Himmel, and H. Schlüter. Observation of low-frequency density
oscillations in an rf heated magnetoplasma.
Plasma Phys. Contr. F.
, 34:1201-1210,
1992.
105. D.M. Pozar.
Microwave Engineering
, 3rd edn. Wiley, New York, 2005.
106. K.E. Greenberg and G.A. Hebner. Electron and metastable densities in parallel-plate
radiofrequency discharges.
J. Appl. Phys.
, 73:8126-8133, 1993.
107. L.J. Overzet. Microwave diagnostic results from the gaseous electronics conference
rf reference cell.
J. Res. Natl. Inst. Stand. Technol.
, 100:401-414, 1995.
108. G. Pretzler. Comparison of different methods of Abel inversion using computer-
simulated and experimental side-on data.
Z. Naturforsch. A
, 47:955-970, 1992.
109. J. Howard and H.-P. Landgraf. Quadrature sampling phase detection.
Rev. Sci.
Instrum.
, 65:2130, 1994.
110. S.A. Maas.
Microwave Mixers
. Artech House, Norwood, MA, 1986.
111. H.J. Hartfuss, T. Geist, and M. Hirsch. Heterodyne methods in millimetre wave
plasma diagnostics with applications to ECE, interferometry and reflectometry.
Plasma Phys. Contr. F.
, 39:1693-1769, 1997.
112. D. Veron. Submillimeter interferometry of high-density plasmas. In K.J. Button, ed.,
Infrared and Millimeter Waves
, 2nd edn., p. 67. Academic Press, New York, 1974.
113. A. Allmendinger, R. Platz, and G. Dodel. Megahertz far-infrared frequency-shifting
via multiple diffraction by a rotating grating.
Rev. Sci. Instrum.
, 64:1705-1713, 1993.
114. J. Rutman. Characterization of phase and frequency instabilities in precision
frequency sources 15th years of progress.
Proc. IEEE
, 66:1048-1075, 1978.
115. B. Vowinkel. Private communication.
116. Y. Kawano, A. Nagashima, T. Hatae, and S. Gunji. Dual CO
2
laser interferometer with
a wavelength combination of 10.6 and 9.27 mu m for electron density measurement
on large tokamaks.
Rev. Sci. Instrum.
, 67:1520-1528, 1996.
117. M. Krämer, B. Clarenbach, and W. Kaiser. 1mm interferometer with high spatial and
temporal resolution for electron density measurements on pulsed plasmas. In
XXVII
th ICPIG,
Eindhoven, the Netherlands, 2005.
118. F.A. Hopf and M. Cervantes. Nonlinear optical interferometer.
Appl. Optics
,
21:668-677, 1982.
119. P.A. Bagryansky, A.D. Khilchenko, A.N. Kvashnin, A.A. Lizunov, R.V.
Voskoboynikov, A.L. Solomakhin, and H.R. Koslowski. Dispersion interfer-
ometer based on a CO
2
laser for TEXTOR and burning plasma experiments.
Rev. Sci.
Instrum.
, 77:053501, 2006.
120. R. Prentice, T. Edlington, R.T.C. Smith, D.L. Trotman, R.J. Wylde, and P. Zimmer-
mann. A 2-color mm-wave interferometer for the JET divertor.
Rev. Sci. Instrum.
,
66:1154-1158, 1995.
121. E.E. Scime, R.F. Boivin, J.L. Kline, and M.M. Balkey. Microwave interferometer for
steady-state plasmas.
Rev. Sci. Instrum.
, 72:1672-1676, 2001.
122. k. Kawahata, K. Haba, J. Fujita, and S. Okajima. Multichannel HCN laser inter-
ferometer for electron-density measurements of the JIPP T-IIU tokamak.
Rev. Sci.
Instrum.
, 60:3734-3738, 1989.
123. C.A.J. Hugenholtz. Microwave interferometer and reflectometer techniques for
thermonuclear plasmas. PhD thesis, Technical University Eindhoven, Eindhoven, the
Netherlands, 1990.
