SBIR-STTR Award

Micro Ion Spectrometer for Fusion Plasmas Boundary Measurements
Award last edited on: 3/25/2019

Sponsored Program
STTR
Awarding Agency
DOE
Total Award Amount
$149,671
Award Phase
1
Solicitation Topic Code
20a
Principal Investigator
Earl Scime

Company Information

Advanced Research Corporation (AKA: ARC Nano)

4459 White Bear Parkway
White Bear Lake, MN 55110
   (651) 789-9000
   info@arcnano.com
   www.arcnano.com

Research Institution

West Virginia University

Phase I

Contract Number: DE-SC0017873
Start Date: 6/12/2017    Completed: 3/11/2018
Phase I year
2017
Phase I Amount
$149,671
As magnetically confined plasmas progress towards ignition and very long pulse experiments, the physics of the pedestal and diverter regions have become increasingly important. Measurements of electron density, electron temperature, fluctuation levels, impurity content in the plasma edge, and heat loads on plasma facing components in the diverter are readily obtained with a variety of diagnostics. However, there is a critical need to measure the low energy ions at the edge of the plasma. The energy spectra of the ions determines the rates of sputtering and erosion of the plasma facing surfaces. The focus of this proposal is the direct, spatially resolved measurement of the energy spectra of ions in the edge of a tokamak plasma using in-situ plasma spectrometers that are easily replaced and require minimal resources. The ion spectra in the edge is not easily determined spectroscopically and must be measured in situ since the ions are confined by the strong magnetic fields of the tokamak. There are essentially three elements in any plasma ion energy spectrometer: a collimating structure that defines the viewing geometry of the instrument and, ideally, provides partial or complete shielding of the instrument from light; an energy per charge or energy per mass resolving analyzer; and a particle detector. By combining advances in lithography, high contrast etching, and particle detectors, we have designed improvements to each element to develop a compact plasma spectrometer concept.

Phase II

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