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[[File:Solar flare.png|420px|thumb|right|A prominence on the sun, an arc of plasma rising into the corona. Image credit: [http://sdo.gsfc.nasa.gov/ Solar Dynamics Observatory] (April, 2010)]]
Diagnostics are the eyes and ears of fusion reactors. They return vital parameters such as the temperature, the density, the impurity content, the magnetic field et cetera.  
Diagnostics are the eyes and ears of fusion reactors. They return vital parameters such as the temperature, the density, the impurity content, the magnetic field et cetera.  
A distinction can be made between ''active'' and ''passive'' diagnostics (the former requiring the injection of light beams, particles, or probes, while the latter is based on the observation of radiation and particles emitted spontaneously by the plasma).
A distinction can be made between ''active'' and ''passive'' diagnostics (the former requiring the injection of light beams, particles, or probes, while the latter is based on the observation of radiation and particles emitted spontaneously by the plasma).
Below follows a list of different diagnostics, together with their main measurement parameters.
Below follows a list of different diagnostics, together with their main measurement parameters.


== Passive diagnostics ==


{| class="wikitable"  align="center" border="1"
{| class="wikitable"  align="center" border="1"
!''Name'' !!''Abbreviation''!!''Measurement parameters''
!''Name'' !!''Abbreviation''!!''Measurement parameters''
|-
|-
|Thomson Scattering || TS || Electron temperature <math>T_e</math>, electron density <math>n_e</math>
|Electron Cyclotron Emission || ECE, ECEi || Electron temperature <math>T_e</math>, electron temperature fluctuations (turbulence) <math>\tilde{T}_e</math> (local)
|-
|-
|Charge Exchange Recombination Spectroscopy || CXRS, CXS, CHERS, CER || Ion temperature <math>T_i</math>, toroidal and poloidal plasma rotation velocity <math>v_\phi</math>, <math>v_\theta</math>, impurity density <math>n_Z</math>
|Soft X-Ray Emission || SXR || A combination of electron temperature <math>T_e</math>, electron density <math>n_e</math>, and effective charge <math>Z_{eff}</math> (line integral)
|-
|-
|Motional Stark Effect || MSE || Magnetic pitch angle <math>\tan(\gamma) = B_\theta/B_\phi</math>
|Mirnov coils, pickup coils || - || Magnetic field components and fluctuations (outside plasma)
|}
 
== Active diagnostics ==
 
{| class="wikitable"  align="center" border="1"
!''Name'' !!''Abbreviation''!!''Measurement parameters''
|-
|-
|Electron Cyclotron Emission || ECE, ECEi || Electron temperature <math>T_e</math>, electron temperature fluctuations (turbulence) <math>\tilde{T}_e</math>
|Thomson Scattering || TS || Electron temperature <math>T_e</math>, electron density <math>n_e</math> (local)
|-
|-
|Soft X-Ray Emission || SXR || A combination of electron temperature <math>T_e</math>, electron density <math>n_e</math>, and effective charge <math>Z_{eff}</math>
|Charge Exchange Recombination Spectroscopy || CXRS, CXS, CHERS, CER || Ion temperature <math>T_i</math>, toroidal and poloidal plasma rotation velocity <math>v_\phi</math>, <math>v_\theta</math>, impurity density <math>n_Z</math>
|-
|-
|Mirnov coils, pickup coils || - || magnetic field components and fluctuations (outside plasma)
|Motional Stark Effect || MSE || Magnetic pitch angle <math>\tan(\gamma) = B_\theta/B_\phi</math>
|-
|-
|Heavy Ion Beam Probe || HIBP || Electron density <math>n_e</math>, plasma potential <math>\phi</math> <br>See [[TJ-II:Heavy Ion Beam Probe]]
|Heavy Ion Beam Probe || HIBP || Electron density <math>n_e</math>, plasma potential <math>\phi</math> (local) <br>See [[TJ-II:Heavy Ion Beam Probe]]
|-
|-
|Interferometry || - || Electron density <math>n_e</math> (line integral)
|Interferometry || - || Electron density <math>n_e</math> (line integral)
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|Polarimetry || - || Magnetic field pitch (line integral)
|Polarimetry || - || Magnetic field pitch (line integral)
|-
|-
|Reflectometry || - || Electron density <math>n_e</math> (edge profile, fluctuations)
|Reflectometry || - || Electron density <math>n_e</math> (local, fluctuations)
|}
|}


A special bi-annual conference on fusion diagnostics is held in the U.S.: The [[Topical Conference on High Temperature Plasma Diagnostics]] (HTPD)
A special bi-annual conference on fusion diagnostics is held in the U.S.: The [[Topical Conference on High Temperature Plasma Diagnostics]] (HTPD)

Revision as of 09:25, 4 June 2012

Diagnostics are the eyes and ears of fusion reactors. They return vital parameters such as the temperature, the density, the impurity content, the magnetic field et cetera. A distinction can be made between active and passive diagnostics (the former requiring the injection of light beams, particles, or probes, while the latter is based on the observation of radiation and particles emitted spontaneously by the plasma). Below follows a list of different diagnostics, together with their main measurement parameters.

Passive diagnostics

Name Abbreviation Measurement parameters
Electron Cyclotron Emission ECE, ECEi Electron temperature , electron temperature fluctuations (turbulence) (local)
Soft X-Ray Emission SXR A combination of electron temperature , electron density , and effective charge (line integral)
Mirnov coils, pickup coils - Magnetic field components and fluctuations (outside plasma)

Active diagnostics

Name Abbreviation Measurement parameters
Thomson Scattering TS Electron temperature , electron density (local)
Charge Exchange Recombination Spectroscopy CXRS, CXS, CHERS, CER Ion temperature , toroidal and poloidal plasma rotation velocity , , impurity density
Motional Stark Effect MSE Magnetic pitch angle
Heavy Ion Beam Probe HIBP Electron density , plasma potential (local)
See TJ-II:Heavy Ion Beam Probe
Interferometry - Electron density (line integral)
Polarimetry - Magnetic field pitch (line integral)
Reflectometry - Electron density (local, fluctuations)

A special bi-annual conference on fusion diagnostics is held in the U.S.: The Topical Conference on High Temperature Plasma Diagnostics (HTPD)

References

  • I.H. Hutchinson, Principles of Plasma Diagnostics, Cambridge University Press; 2nd edition (2002) ISBN 978-0521803892