A 400 kHz, fast-sweep Langmuir probe for measuring plasma fluctuations
- 26 May 1999
- journal article
- research article
- Published by AIP Publishing in Review of Scientific Instruments
- Vol. 70 (6) , 2681-2688
- https://doi.org/10.1063/1.1149828
Abstract
A novel, fast-sweep Langmuir probe has been constructed and successfully operated on “Thorello.” It is based on a novel, dual channel circuit that compensates for stray capacitance and permits sweep speeds up to 400 kHz. The circuit response has been tested by measuring the known current–voltage characteristics of resistors and diodes. In addition, the probe has been used to measure the electron temperature and density as well as the plasma potential of plasmas generated in Thorello. A method of three-parameter curve fitting is used to analyze the time-dependent data. The measurements compare favorably with those derived from other standard probe techniques.Keywords
This publication has 14 references indexed in Scilit:
- Edge Plasma Turbulence Diagnosis by Langmuir ProbesContributions to Plasma Physics, 1996
- A dual-cable noise reduction method for Langmuir probesReview of Scientific Instruments, 1995
- The time-domain triple-probe methodReview of Scientific Instruments, 1995
- Density, temperature, and potential fluctuation measurements by the swept Langmuir probe technique in Wendelstein 7-ASPhysics of Plasmas, 1994
- On Dynamical Effects on I‐V Characteristic of Langmuir Probes in Tokamak Edge PlasmaContributions to Plasma Physics, 1994
- Electron temperature fluctuation measurements with high temporal resolution in the TEXTOR boundary plasmaPhysics Letters A, 1993
- A new scheme for Langmuir probe measurement of transport and electron temperature fluctuationsReview of Scientific Instruments, 1992
- Temperature fluctuations and transport in a tokamak edge plasmaPhysics of Fluids B: Plasma Physics, 1989
- Temperature fluctuations and heat transport in the edge regions of a tokamakPhysics of Fluids, 1986
- Instantaneous Direct-Display System of Plasma Parameters by Means of Triple ProbeJournal of Applied Physics, 1965