FOREWORD
1. INTRODUCTION
1.1. Probe shapes and probe types
1.2. Measuring the probe characteristic
1.3. Probe characteristic and its interpretation
1.4. The working regimes of the Langmuir probe
1.5. Advantages and disadvantages of the Langmuir probe diagnostics method
2. THE LANGMUIR SINGLE PROBE METHOD
2.1. Theoretical foundations of the Langmuir probe method
2.2. Probe characteristic ‒ example of the spherical probe
2.2.1. Probe current at q(Up ( 0
2.2.2. Probe current at q(Up ( 0
3. GENERAL THEORIES OF THE CURRENT TO A LANGMUIR PROBE
3.1. Starting system of equations
3.2. The «cold ion» model by Allen, Boyd and Reynolds (Ti / Tk ( 0, spherical probe)
4. THE DRUYVESTEYN METHOD FOR ESTIMATION OF THE ELECTRON ENERGY DISTRIBUTION FUNCTION (EEDF)
5. PROBE DIAGNOSTICS OF ANISOTROPIC PLASMAS
6. LANGMUIR PROBE IN THE NON COLLISION-FREE CONDITIONS (TRANSITION REGIME OF PRESSURES)
7. LANGMUIR PROBE IN A MAGNETISED PLASMA
8. SPACE AND TIME RESOLVED LANGMUIR PROBE METHOD
8.1. Space resolved Langmuir probe measurements
8.2. Time resolved Langmuir probe measurements
8.2.1. Time resolved probe measurements in periodically changing plasmas at ( < (pi
8.2.2. Probe measurements of time-averaged plasma parameters at (pi < ( << (pe
8.2.3. Time resolved probe measurements in single shot experiments
9. PROBE DIAGNOSTIC OF CHEMICALLY ACTIVE PLASMAS
10. DOUBLE PROBE TECHNIQUE
11. TRIPLE PROBE TECHNIQUE
12. EMISSIVE PROBE
13. SPECIAL PROBES
13.1. Plasma impedance probe
13.2. Plasma oscillation probe
13.3. Ion flux pulsed and RF probe
13.4. Hairpin probe
14. PROBES IN (MAGNETIZED) FUSION-RELATED PLASMAS
14.1. Langmuir probe in fusion-related plasma
14.1.1. Rake probe
14.1.2. Poloidal ring of electric and magnetic probes
14.1.3. Langmuir probes in JET divertor
14.2. Mach probe, Gundestrup probe
14.2.1. Mach probe
14.2.2. Gundestrup probe
14.3. Retarding field analyzer
14.4. Ion sensitive probes, Katsumata probe
14.5. Tunnel probe
14.6. Ball-pen probe
REFERENCES