Chemistry Reference
In-Depth Information
CHAPTER 6
1. H.M. Mott-Smith and I. Langmuir. The theory of collectors in gaseous discharges.
Phys. Rev.
, 28:727-763, 1926.
2. F.F. Chen. Electric probes. In R.H. Hudlestone and S.L. Leonard, eds.,
Plasma
Diagnostic Techniques
. Academic Press, New York, 1965.
3. L. Schott. Electric probes. In W. Lochte-Holtgreven, ed.,
Plasma Diagnostics
.
North-Holland Publishing Company, Amsterdam, the Netherlands, 1968. Reprinted
1995 by the American Institute of Physics.
4. J.D. Swift and M.J.R. Schwar.
Electrical Probes for Plasma Diagnostics
. Iliffe,
London, U.K., 1970.
5. P.M. Chung, L. Talbot, and K.J. Touryan.
Electric Probes in Stationary and Flowing
Plasmas
. Springer-Verlag, New York, 1975.
6. B.E. Cherrington. The use of electrostatic probes for plasma diagnostics—A review.
Plasma Chem. Plasma Process.
, 2:113-140, 1982.
7. I.H. Hutchinson.
Principles of Plasma Diagnostics
. Cambridge University Press,
Cambridge, U.K., 1987.
8. N. Hershkowitz. How Langmuir probes work. In O. Auciello and D.F. Flamm, eds.,
Plasma Diagnostics
, Vol. 1, Academic Press, Boston, MA, 1989.
9. V.A. Godyak, R.B. Piejak, and B.M. Alexandrovich. Measurement of electron energy
distribution in low-pressure rf discharges.
Plasma Sources Sci. Technol.
, 1:36-58,
1992.
10. V.I. Demidov, S.V. Ratynskaia, and K. Rypdal. Electric probes for plasmas: The link
between theory and instrument.
Rev. Sci. Instrum.
, 73:3409-3439, 2002.
11. S. Pfau and M. Tichy. Langmuir probe diagnostics of low-temperature plasmas.
In R. Hippler, S. Pfau, M. Schmidt, and K.H. Schoenbach, eds.,
Low Temperature
Plasma Physics: Fundamentals, Technologies and Techniques
, Vol. 1, 2nd edn. pp.
131-172. Wiley-VCH, Berlin, Germany, 2008.
12. V.A. Godyak and V.I. Demidov. Probe measurements of electron-energy distributions
in plasmas: What can we measure and how can we achieve reliable results?
J. Phys.
D Appl. Phys.
, 44:233001, 2011.
13. D. Maundrill, J. Slatter, A.I. Spiers, and C.C. Welch. Electrical measurements of
rf-generated plasmas using a driven electrostatic probe technique.
J. Phys. D Appl.
Phys.
, 20:815-819, 1987.
14. S. Klagge and M. Tich
y. A contribution to the assessment of the influence of
collisions on the measurements with Langmuir probes in the thick sheath working
regime.
Czech. J. Phys.
, B35:988-1006, 1985.
15. M.S. Benilov and B.V. Rogov. Ion saturation currents to spherical and cylindrical
electrostatic probes in collisional plasmas.
J. Appl. Phys.
, 70:6726-6731, 1991.
16. M.S. Benilov. Can the temperature of electrons in a high-pressure plasma be deter-
mined by means of an electrostatic probe?
J.Phys.DAppl.Phys
, 33:1683-1698, 2000.
17. A.K Srivastava, M.K. Garg, K.S.G. Prasad, V. Kumar, M.B. Chowdhuri, and
R. Prakash. Characterization of atmospheric pressure glow discharge in helium
using Langmuir probe, emission spectroscopy, and discharge resistivity.
IEEE Trans.
Plasma Sci.
, 35:1135-1142, 2007.
18. Y.P. Raizer.
Gas Discharge Physics.
Springer-Verlag, Berlin, Germany, 1991.
19. S.C. Luijendijk and J. van Eck. Comparison of 3 devices for measuring second
derivative of a Langmuir probe curve.
Physica
, 36:49, 1967.
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