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< < | Our instrument, or diagnostic, will allow us to study fusion plasma instabilities. Our research will contribute to worldwide efforts in better understanding plasmas to control instabilities which can deteriorate fusion plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable fusion energy. Though we design, develop, and bench test our instrument at FIU, we have collected our data offsite at a research facility in England (the Mega Amp Spherical Tokamak). We are currently analyzing data collected with our instrument to determine the time dependent charged fusion product profile. We are specifically observing products from nuclear fusion reactions between hydrogen isotopes, or deuterium-deuterium reactions. In general, we want to know when and where charged particles from these reactions, such as protons and tritons, are created inside of the plasma so that we can study how the plasma is affected by instabilities. | |||||||
> > | An adapted instrument with 2 more channels, a total of 6 channels, will be designed with the goal of studying charged fusion products from NSTX-U plasmas. | |||||||
Changed: | ||||||||
< < | * Please visit our TWiki page for the Proton Detector installed in Mega Amp Spherical Tokamak | |||||||
> > | * Please visit our TWiki page for the next phase Proton Detector which will be designed with the goal of installation in the National Spherical Torus Experiment Upgrade | |||||||
Changed: | ||||||||
< < | | |||||||
> > | | |||||||
Changed: | ||||||||
< < | An adapted instrument with 2 more channels, a total of 6 channels, will be designed with the goal of studying charged fusion products from NSTX-U plasmas. | |||||||
> > | Our instrument, or diagnostic, will allow us to study fusion plasma instabilities. Our research will contribute to worldwide efforts in better understanding plasmas to control instabilities which can deteriorate fusion plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable fusion energy. | |||||||
Changed: | ||||||||
< < | * Please visit our TWiki page for the next phase Proton Detector which will be designed with the goal of installation in the National Spherical Torus Experiment Upgrade | |||||||
> > | Though we design, develop, and bench test our instrument at FIU, we have collected our data offsite at a research facility in England (the Mega Amp Spherical Tokamak). We are currently analyzing data collected with our instrument to determine the time dependent charged fusion product profile. We are specifically observing products from nuclear fusion reactions between hydrogen isotopes, or deuterium-deuterium reactions. In general, we want to know when and where charged particles from these reactions, such as protons and tritons, are created inside of the plasma so that we can study how the plasma is affected by instabilities. * Please visit our TWiki page for the Proton Detector installed in Mega Amp Spherical Tokamak | |||||||
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About | |||||||
> > | | |||||||
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> > | ||||||||
We are an academic research group at a public research university with a focus on fast ion loss diagnostics for magnetically confined fusion plasmas. | ||||||||
Deleted: | ||||||||
< < | ||||||||
Changed: | ||||||||
< < | Current Project | |||||||
> > | | |||||||
Our instrument, or diagnostic, will allow us to study fusion plasma instabilities. Our research will contribute to worldwide efforts in better understanding plasmas to control instabilities which can deteriorate fusion plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable fusion energy. | ||||||||
Line: 24 to 21 | ||||||||
* Please visit our TWiki page for the Proton Detector installed in Mega Amp Spherical Tokamak | ||||||||
Changed: | ||||||||
< < | Future Project | |||||||
> > | | |||||||
An adapted instrument with 2 more channels, a total of 6 channels, will be designed with the goal of studying charged fusion products from NSTX-U plasmas. * Please visit our TWiki page for the next phase Proton Detector which will be designed with the goal of installation in the National Spherical Torus Experiment Upgrade | ||||||||
Changed: | ||||||||
< < | FIU Group Members | |||||||
> > | | |||||||
Changed: | ||||||||
< < | ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), Ramona Perez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) Click here to see more group member and collaborator photos | |||||||
> > | ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), Ramona Perez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) Click here to see more group member and collaborator photos | |||||||
Principal Investigator (PI):
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> > | | |||||||
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ABOVE: High Vacuum system for bench testing | ||||||||
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3-D reconstruction of dust particle trajectories in the NSTX |
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< < | ||||||||
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> > | ||||||||
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> > | About | |||||||
We are an academic research group at a public research university with a focus on fast ion loss diagnostics for magnetically confined fusion plasmas. | ||||||||
Added: | ||||||||
> > | ||||||||
Changed: | ||||||||
< < | | |||||||
> > | Current Project | |||||||
Our instrument, or diagnostic, will allow us to study fusion plasma instabilities. Our research will contribute to worldwide efforts in better understanding plasmas to control instabilities which can deteriorate fusion plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable fusion energy. | ||||||||
Line: 21 to 24 | ||||||||
* Please visit our TWiki page for the Proton Detector installed in Mega Amp Spherical Tokamak | ||||||||
Changed: | ||||||||
< < | | |||||||
> > | Future Project | |||||||
An adapted instrument with 2 more channels, a total of 6 channels, will be designed with the goal of studying charged fusion products from NSTX-U plasmas. * Please visit our TWiki page for the next phase Proton Detector which will be designed with the goal of installation in the National Spherical Torus Experiment Upgrade | ||||||||
Changed: | ||||||||
< < | | |||||||
> > | FIU Group Members | |||||||
Changed: | ||||||||
< < | ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), Ramona Perez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) Click here to see more group member and collaborator photos | |||||||
> > | ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), Ramona Perez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) Click here to see more group member and collaborator photos | |||||||
Principal Investigator (PI):
| ||||||||
Line: 76 to 82 | ||||||||
Past High School Students:
| ||||||||
Changed: | ||||||||
< < | | |||||||
> > | Research Opportunities | |||||||
Changed: | ||||||||
< < | Research Facilities: | |||||||
> > | FIU and Collaborator Research Facilities: | |||||||
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> > |
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ABOVE: High Vacuum system for bench testing | ||||||||
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> > | ||||||||
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< < | | |||||||
> > | Past Projects | |||||||
3-D reconstruction of dust particle trajectories in the NSTX |
Line: 1 to 1 | ||||||||
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Undergraduate Students:
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< < | FIU Alumni: | |||||||
Collaborators:
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Undergraduate Research:
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> > | -- RamonaValenzuelaPerez - 2014-06-21 | |||||||
Line: 17 to 19 | ||||||||
Though we design, develop, and bench test our instrument at FIU, we have collected our data offsite at a research facility in England (the Mega Amp Spherical Tokamak). We are currently analyzing data collected with our instrument to determine the time dependent charged fusion product profile. We are specifically observing products from nuclear fusion reactions between hydrogen isotopes, or deuterium-deuterium reactions. In general, we want to know when and where charged particles from these reactions, such as protons and tritons, are created inside of the plasma so that we can study how the plasma is affected by instabilities. | ||||||||
Changed: | ||||||||
< < | * Please visit our TWiki page for the Proton Detector installed in Mega Amp Spherical Tokamak | |||||||
> > | * Please visit our TWiki page for the Proton Detector installed in Mega Amp Spherical Tokamak | |||||||
An adapted instrument with 2 more channels, a total of 6 channels, will be designed with the goal of studying charged fusion products from NSTX-U plasmas. | ||||||||
Changed: | ||||||||
< < | * Please visit our TWiki page for the next phase Proton Detector which will be designed with the goal of installation in the National Spherical Torus Experiment Upgrade | |||||||
> > | * Please visit our TWiki page for the next phase Proton Detector which will be designed with the goal of installation in the National Spherical Torus Experiment Upgrade | |||||||
| ||||||||
Line: 101 to 103 | ||||||||
LEFT AND RIGHT: Images of 3D cad drawings for detector housing/ probe head with the ability to change detector orientations | ||||||||
Deleted: | ||||||||
< < | -- RamonaValenzuelaPerez - 2013-11-15 | |||||||
|
Line: 1 to 1 | ||||||||
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| ||||||||
Line: 17 to 17 | ||||||||
Though we design, develop, and bench test our instrument at FIU, we have collected our data offsite at a research facility in England (the Mega Amp Spherical Tokamak). We are currently analyzing data collected with our instrument to determine the time dependent charged fusion product profile. We are specifically observing products from nuclear fusion reactions between hydrogen isotopes, or deuterium-deuterium reactions. In general, we want to know when and where charged particles from these reactions, such as protons and tritons, are created inside of the plasma so that we can study how the plasma is affected by instabilities. | ||||||||
Changed: | ||||||||
< < | * Please visit our TWiki page for the Proton Detector: Page for MAST Diagnostic | |||||||
> > | * Please visit our TWiki page for the Proton Detector installed in Mega Amp Spherical Tokamak | |||||||
Added: | ||||||||
> > |
An adapted instrument with 2 more channels, a total of 6 channels, will be designed with the goal of studying charged fusion products from NSTX-U plasmas.
* Please visit our TWiki page for the next phase Proton Detector which will be designed with the goal of installation in the National Spherical Torus Experiment Upgrade | |||||||
|
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Changed: | ||||||||
< < | ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), RamonaValenzuelaPerez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) Click here to see more group member and collaborator photos | |||||||
> > | ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), Ramona Perez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) Click here to see more group member and collaborator photos | |||||||
Principal Investigator (PI):
| ||||||||
Changed: | ||||||||
< < | Graduate Student:
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> > | Graduate Students:
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Undergraduate Students:
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Deleted: | ||||||||
< < |
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< < |
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Undergraduate Research:
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Graduate Research:
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Our instrument, or diagnostic, will allow us to study fusion plasma instabilities. Our research will contribute to worldwide efforts in better understanding plasmas to control instabilities which can deteriorate fusion plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable fusion energy. | ||||||||
Changed: | ||||||||
< < | Though we design, develop, and bench test our instrument at FIU, we have collected our data offsite at a research facility in England (the Mega Amp Spherical Tokamak). We are currently analyzing data collected with our instrument to determine the time dependent charged fusion product profile. We are specifically observing products from nuclear fusion reactions between hydrogen isotopes, or Deuterium-Deuterium reactions. In general, we want to know when and where charged particles from these reactions, such as protons and tritons, are created inside of the plasma so that we can study how the plasma is affected by instabilities. | |||||||
> > | Though we design, develop, and bench test our instrument at FIU, we have collected our data offsite at a research facility in England (the Mega Amp Spherical Tokamak). We are currently analyzing data collected with our instrument to determine the time dependent charged fusion product profile. We are specifically observing products from nuclear fusion reactions between hydrogen isotopes, or deuterium-deuterium reactions. In general, we want to know when and where charged particles from these reactions, such as protons and tritons, are created inside of the plasma so that we can study how the plasma is affected by instabilities. | |||||||
* Please visit our TWiki page for the Proton Detector: Page for MAST Diagnostic | ||||||||
Line: 29 to 29 | ||||||||
Principal Investigator (PI): | ||||||||
Changed: | ||||||||
< < |
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> > |
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Graduate Student: | ||||||||
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< < |
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> > | ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), RamonaValenzuelaPerez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) Click here to see more group member and collaborator photos | |||||||
Principal Investigator (PI):
| ||||||||
Line: 42 to 47 | ||||||||
| ||||||||
Deleted: | ||||||||
< < | ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), RamonaValenzuelaPerez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) Click here to see more group member and collaborator photos | |||||||
|
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< < | BG
FIU Experimental Plasma Physics Group (FEPP) | |||||||
> > | ||||||||
Changed: | ||||||||
< < | ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), RamonaValenzuelaPerez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) standing in front of the Mega Amp Spherical Tokamak at the Culham Centre for Fusion Energy Click here to see more group member and collaborator photos | |||||||
> > |
| |||||||
Deleted: | ||||||||
< < | ||||||||
Changed: | ||||||||
< < | Current Project | |||||||
> > | We are an academic research group at a public research university with a focus on fast ion loss diagnostics for magnetically confined fusion plasmas. | |||||||
Deleted: | ||||||||
< < | Please visit our TWiki page for our Charged Fusion Products Diagnostic, also called the Proton Detector: Page for MAST Diagnostic | |||||||
Changed: | ||||||||
< < | ||||||||
> > | | |||||||
Changed: | ||||||||
< < | ||||||||
> > | Our instrument, or diagnostic, will allow us to study fusion plasma instabilities. Our research will contribute to worldwide efforts in better understanding plasmas to control instabilities which can deteriorate fusion plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable fusion energy. Though we design, develop, and bench test our instrument at FIU, we have collected our data offsite at a research facility in England (the Mega Amp Spherical Tokamak). We are currently analyzing data collected with our instrument to determine the time dependent charged fusion product profile. We are specifically observing products from nuclear fusion reactions between hydrogen isotopes, or Deuterium-Deuterium reactions. In general, we want to know when and where charged particles from these reactions, such as protons and tritons, are created inside of the plasma so that we can study how the plasma is affected by instabilities. | |||||||
Changed: | ||||||||
< < | FIU Group Members | |||||||
> > | * Please visit our TWiki page for the Proton Detector: Page for MAST Diagnostic
| |||||||
Principal Investigator (PI):
| ||||||||
Line: 27 to 29 | ||||||||
| ||||||||
Changed: | ||||||||
< < |
| |||||||
> > |
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Changed: | ||||||||
< < | FIU Alumni:
| |||||||
> > |
| |||||||
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Changed: | ||||||||
< < |
| |||||||
> > |
| |||||||
Past Undergraduate Students:
| ||||||||
Changed: | ||||||||
< < | Past High School Students: | |||||||
> > | High School Students: | |||||||
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Changed: | ||||||||
< < | Research Opportunities | |||||||
> > | Collaborators:
| |||||||
Research Facilities:
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Line: 58 to 67 | ||||||||
| ||||||||
Changed: | ||||||||
< < | ||||||||
> > | Collaborators:
| |||||||
ABOVE: High Vacuum system for bench testing | ||||||||
Changed: | ||||||||
< < | Past Projects | |||||||
> > |
| |||||||
3-D reconstruction of dust particle trajectories in the NSTX The original Charged Fusion Products Diagnostic that would have been installed in NSTX (there was a premature shutdown of NSTX for its upgrade): | ||||||||
Changed: | ||||||||
< < | ||||||||
> > | ||||||||
LEFT AND RIGHT: Images of 3D cad drawings for detector housing/ probe head with the ability to change detector orientations | ||||||||
Deleted: | ||||||||
< < | ||||||||
Changed: | ||||||||
< < | -- RamonaValenzuelaPerez - 2013-11-15 | |||||||
> > | -- RamonaValenzuelaPerez - 2013-11-15 | |||||||
| ||||||||
Line: 92 to 104 | ||||||||
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> > |
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< < | ||||||||
> > | BG
| |||||||
FIU Experimental Plasma Physics Group (FEPP) | ||||||||
Deleted: | ||||||||
< < | ||||||||
ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), RamonaValenzuelaPerez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) standing in front of the Mega Amp Spherical Tokamak at the Culham Centre for Fusion Energy Click here to see more group member and collaborator photos | ||||||||
Deleted: | ||||||||
< < |
Our instrument, or diagnostic, will allow us to study plasma instabilities. Our research will contribute to worldwide efforts in better understanding plasmas to control instabilities which can deteriorate fusion plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable fusion energy. | |||||||
Deleted: | ||||||||
< < | Though we design, develop, and bench test our instrument at FIU, we have collected our data offsite at a research facility in England. We are currently analyzing data collected with our instrument (an array of four detectors) to determine the time dependent charged fusion product profile. In general, we want to know when and where charged particles from fusion reactions are created inside of a fusion plasma. We are specifically looking at protons and tritons which are products from deuterium-deuterium (hyrodgen isotopes) fusion reactions. | |||||||
Changed: | ||||||||
< < |
| |||||||
> > | Current Project | |||||||
Added: | ||||||||
> > | Please visit our TWiki page for our Charged Fusion Products Diagnostic, also called the Proton Detector: Page for MAST Diagnostic | |||||||
Changed: | ||||||||
< < | | |||||||
> > |
FIU Group Members | |||||||
Principal Investigator (PI):
| ||||||||
Line: 42 to 41 | ||||||||
| ||||||||
Changed: | ||||||||
< < | | |||||||
> > | Research Opportunities | |||||||
Research Facilities:
| ||||||||
Line: 61 to 60 | ||||||||
Changed: | ||||||||
< < | ||||||||
> > | ||||||||
ABOVE: High Vacuum system for bench testing | ||||||||
Changed: | ||||||||
< < | | |||||||
> > | Past Projects | |||||||
3-D reconstruction of dust particle trajectories in the NSTX The original Charged Fusion Products Diagnostic that would have been installed in NSTX (there was a premature shutdown of NSTX for its upgrade): | ||||||||
Changed: | ||||||||
< < | ||||||||
> > | ||||||||
LEFT AND RIGHT: Images of 3D cad drawings for detector housing/ probe head with the ability to change detector orientations | ||||||||
Added: | ||||||||
> > | ||||||||
Changed: | ||||||||
< < | -- RamonaValenzuelaPerez - 2013-11-15 | |||||||
> > | -- RamonaValenzuelaPerez - 2013-11-15 | |||||||
|
Line: 1 to 1 | ||||||||
---|---|---|---|---|---|---|---|---|
FIU Experimental Plasma Physics Group (FEPP) | ||||||||
Line: 8 to 8 | ||||||||
ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), RamonaValenzuelaPerez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) standing in front of the Mega Amp Spherical Tokamak at the Culham Centre for Fusion Energy Click here to see more group member and collaborator photos | ||||||||
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< < | | |||||||
> > | | |||||||
Our instrument, or diagnostic, will allow us to study plasma instabilities. Our research will contribute to worldwide efforts in better understanding plasmas to control instabilities which can deteriorate fusion plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable fusion energy. | ||||||||
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Principal Investigator (PI):
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FIU Experimental Plasma Physics Group (FEPP) | ||||||||
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FIU Experimental Plasma Physics Group (FEPP) | ||||||||
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< < | ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), RamonaValenzuelaPerez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) | |||||||
> > | ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), RamonaValenzuelaPerez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) standing in front of the Mega Amp Spherical Tokamak at the Culham Centre for Fusion Energy | |||||||
Click here to see more group member and collaborator photos
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Line: 1 to 1 | ||||||||
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FIU Experimental Plasma Physics Group (FEPP) | ||||||||
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Our instrument, or diagnostic, will allow us to study plasma instabilities. Our research will contribute to worldwide efforts in better understanding plasmas to control instabilities which can deteriorate fusion plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable fusion energy. | ||||||||
Changed: | ||||||||
< < | Though we design, develop, and bench test our instrument at FIU, we have collected our data offsite at a research facility in England. We are currently analyzing data collected with our instrument (an array of four detectors) to determine the time dependent charged fusion product profile. In general, we want to know when and where charged particles from fusion reactions are created inside of a fusion plasma. We are specifically looking at protons and tritons which are products from deuterium-deuterium fusion reactions. | |||||||
> > | Though we design, develop, and bench test our instrument at FIU, we have collected our data offsite at a research facility in England. We are currently analyzing data collected with our instrument (an array of four detectors) to determine the time dependent charged fusion product profile. In general, we want to know when and where charged particles from fusion reactions are created inside of a fusion plasma. We are specifically looking at protons and tritons which are products from deuterium-deuterium (hyrodgen isotopes) fusion reactions. | |||||||
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FIU Experimental Plasma Physics Group (FEPP) | ||||||||
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< < | Past Undergraduate Students:
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> > | Past Undergraduate Students:
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Research Facilities: |
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FIU Experimental Plasma Physics Group (FEPP) | ||||||||
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Our instrument, or diagnostic, will allow us to study plasma instabilities. Our research will contribute to worldwide efforts in better understanding plasmas to control instabilities which can deteriorate fusion plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable fusion energy. Though we design, develop, and bench test our instrument at FIU, we have collected our data offsite at a research facility in England. We are currently analyzing data collected with our instrument (an array of four detectors) to determine the time dependent charged fusion product profile. In general, we want to know when and where charged particles from fusion reactions are created inside of a fusion plasma. We are specifically looking at protons and tritons which are products from deuterium-deuterium fusion reactions. | ||||||||
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Principal Investigator (PI): |
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FIU Experimental Plasma Physics Group (FEPP) | ||||||||
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< < | ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), Ramona Perez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) | |||||||
> > | ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), RamonaValenzuelaPerez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) | |||||||
Click here to see more group member and collaborator photos
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Principal Investigator (PI):
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< < |
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Undergraduate Students:
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FIU Experimental Plasma Physics Group (FEPP) | ||||||||
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Undergraduate Students:
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> > |
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FIU Experimental Plasma Physics Group (FEPP) | ||||||||
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ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), Ramona Perez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) | ||||||||
Added: | ||||||||
> > | Click here to see more group member and collaborator photos | |||||||
Our instrument, or diagnostic, will allow us to study plasma instabilities. Our research will contribute to worldwide efforts in better understanding plasmas to control instabilities which can deteriorate fusion plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable fusion energy. |
Line: 1 to 1 | ||||||||
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FIU Experimental Plasma Physics Group (FEPP) | ||||||||
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Undergraduate Research:
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FIU Experimental Plasma Physics Group (FEPP) | ||||||||
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The original Charged Fusion Products Diagnostic that would have been installed in NSTX (there was a premature shutdown of NSTX for its upgrade): | ||||||||
Changed: | ||||||||
< < | ||||||||
> > | ||||||||
LEFT AND RIGHT: Images of 3D cad drawings for detector housing/ probe head with the ability to change detector orientations |
Line: 1 to 1 | ||||||||
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FIU Experimental Plasma Physics Group (FEPP) | ||||||||
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< < | -- RamonaValenzuelaPerez - 2013-04-13 | |||||||
FIU Experimental Plasma Physics Group (FEPP) | ||||||||
Added: | ||||||||
> > | ABOVE: Pierre Avila (FIU), Dr. Douglass Darrow (PPPL), Adrianna Angulo (FIU), Ramona Perez (FIU), Dr. Werner Boeglin (FIU), Omar Leon (FIU), Carlos Lopez (FIU) | |||||||
Our instrument, or diagnostic, will allow us to study plasma instabilities. Our research will contribute to worldwide efforts in better understanding plasmas to control instabilities which can deteriorate fusion plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable fusion energy. | ||||||||
Changed: | ||||||||
< < | Spherical tokamaks are machines that can create and confine a plasma to sustain the nuclear fusion reactions we want to study with our instrument. However because these machines are too large and expensive to build with a small group of people, working with plasmas to study fusion can be a highly collaborative effort. Though we design, develop, and bench test our instruments at FIU, we will be collecting our data offsite at a spherical tokamak in England. We are currently designing a four channel prototype instrument (an array of four detectors) to determine the time dependent charged fusion product profile of a spherical tokamak. In general, we want to know where and when charged particles from fusion reactions are created inside of a fusion plasma. We will look for protons and tritons (isotopes of hydrogen) which are products from fusion reactions between deuterium (another hydrogen isotope). | |||||||
> > | Though we design, develop, and bench test our instrument at FIU, we have collected our data offsite at a research facility in England. We are currently analyzing data collected with our instrument (an array of four detectors) to determine the time dependent charged fusion product profile. In general, we want to know when and where charged particles from fusion reactions are created inside of a fusion plasma. We are specifically looking at protons and tritons which are products from deuterium-deuterium fusion reactions. | |||||||
| ||||||||
Line: 20 to 18 | ||||||||
Changed: | ||||||||
< < | ||||||||
> > | ||||||||
Principal Investigator (PI): | ||||||||
Line: 41 to 37 | ||||||||
Collaborators:
| ||||||||
Changed: | ||||||||
< < |
ABOVE LEFT: Werner next to the Mega Amp Spherical Tokamak (MAST) RIGHT: Ramona next to MAST
ABOVE LEFT: Pierre, our collaborator Bob Kaita (PPPL), Carlos RIGHT: Carlos, Omar, Pierre, our collaborator Doug Darrow (PPPL)
ABOVE: Daniel Andruczyk (PPPL), our collaborator Lane Roquemore (PPPL), Pierre, Omar, and Carlos
| |||||||
> > | | |||||||
Research Facilities:
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Graduate Research:
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Added: | ||||||||
> > |
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< < | ||||||||
> > | ||||||||
Changed: | ||||||||
< < | LEFT: Ultra High Vacuum system for bench testing RIGHT: Stainless steel housing unit for detectors (for diagnostic to be installed in MAST) | |||||||
> > | ABOVE: High Vacuum system for bench testing | |||||||
3-D reconstruction of dust particle trajectories in the NSTX | ||||||||
Line: 85 to 71 | ||||||||
LEFT AND RIGHT: Images of 3D cad drawings for detector housing/ probe head with the ability to change detector orientations | ||||||||
Changed: | ||||||||
< < |
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> > | -- RamonaValenzuelaPerez - 2013-11-15 | |||||||
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> > | High School Students:
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Collaborators:
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Line: 81 to 85 | ||||||||
LEFT AND RIGHT: Images of 3D cad drawings for detector housing/ probe head with the ability to change detector orientations | ||||||||
Changed: | ||||||||
< < |
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> > |
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FIU Experimental Plasma Physics Group (FEPP) | ||||||||
Added: | ||||||||
> > | ||||||||
Our instrument, or diagnostic, will allow us to study plasma instabilities. Our research will contribute to worldwide efforts in better understanding plasmas to control instabilities which can deteriorate fusion plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable fusion energy. | ||||||||
Line: 80 to 81 | ||||||||
LEFT AND RIGHT: Images of 3D cad drawings for detector housing/ probe head with the ability to change detector orientations | ||||||||
Added: | ||||||||
> > |
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> > | Past Undergraduate Students:
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Collaborators:
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Changed: | ||||||||
< < | FIU Experimental Plasma Physics (FEPP) Research Group | |||||||
> > | FIU Experimental Plasma Physics Group (FEPP) | |||||||
| ||||||||
Changed: | ||||||||
< < | Our instrument, or diagnostic, will allow us to study plasma instabilities like Alfven eigenmodes. Studying and understanding plasma instabilities will lead to controlling instabilities which can deteriorate plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable fusion energy. | |||||||
> > | Our instrument, or diagnostic, will allow us to study plasma instabilities. Our research will contribute to worldwide efforts in better understanding plasmas to control instabilities which can deteriorate fusion plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable fusion energy. | |||||||
Changed: | ||||||||
< < | Spherical tokamaks are machines that can create and confine a plasma to sustain the nuclear fusion reactions we want to study. However because these machines are too large and expensive to build with a small group of people, working with plasmas to study fusion can be a highly collaborative effort. Though we design, develop, and bench test our instruments at FIU, we will be collecting our data offsite at a spherical tokamak in England. | |||||||
> > | Spherical tokamaks are machines that can create and confine a plasma to sustain the nuclear fusion reactions we want to study with our instrument. However because these machines are too large and expensive to build with a small group of people, working with plasmas to study fusion can be a highly collaborative effort. Though we design, develop, and bench test our instruments at FIU, we will be collecting our data offsite at a spherical tokamak in England. | |||||||
Changed: | ||||||||
< < | We are currently designing a four channel prototype instrument (an array of four detectors) to determine the time dependent charged fusion product profile of a spherical tokamak. In general, we want to know where and when charged particles from fusion reactions are created inside of a fusion plasma, where the plasma is contained inside of the tokamak. We will look for protons and tritons (isotopes of hydrogen) which are products from fusion reactions between deuterium (another hydrogen isotope). | |||||||
> > | We are currently designing a four channel prototype instrument (an array of four detectors) to determine the time dependent charged fusion product profile of a spherical tokamak. In general, we want to know where and when charged particles from fusion reactions are created inside of a fusion plasma. We will look for protons and tritons (isotopes of hydrogen) which are products from fusion reactions between deuterium (another hydrogen isotope). | |||||||
| ||||||||
Line: 18 to 18 | ||||||||
Changed: | ||||||||
< < | ABOVE: 3D CAD image of an exploded view of the detector housing unit/ probe head diagnostic, also called the Proton Detector LEFT: Werner next to the Mega Amp Spherical Tokamak (MAST) RIGHT: Ramona next to MAST | |||||||
> > | ||||||||
Principal Investigator (PI): | ||||||||
Line: 39 to 33 | ||||||||
Collaborators:
| ||||||||
Added: | ||||||||
> > | ABOVE LEFT: Werner next to the Mega Amp Spherical Tokamak (MAST) RIGHT: Ramona next to MAST | |||||||
Changed: | ||||||||
< < | LEFT: Pierre, our collaborator Bob Kaita (PPPL), Carlos RIGHT: Carlos, Omar, Pierre, our collaborator Doug Darrow (PPPL) | |||||||
> > | ABOVE LEFT: Pierre, our collaborator Bob Kaita (PPPL), Carlos RIGHT: Carlos, Omar, Pierre, our collaborator Doug Darrow (PPPL) | |||||||
Line: 1 to 1 | ||||||||
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| ||||||||
Line: 6 to 6 | ||||||||
FIU Experimental Plasma Physics (FEPP) Research Group | ||||||||
Changed: | ||||||||
< < | Our instrument, or diagnostic, will allow us to study plasma instabilities like Alfven eigenmodes. Studying and understanding plasma instabilities will lead to controlling instabilities which can deteriorate plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable nuclear fusion energy, a much safer energy source than current nuclear fission power plants. | |||||||
> > | Our instrument, or diagnostic, will allow us to study plasma instabilities like Alfven eigenmodes. Studying and understanding plasma instabilities will lead to controlling instabilities which can deteriorate plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable fusion energy. | |||||||
Spherical tokamaks are machines that can create and confine a plasma to sustain the nuclear fusion reactions we want to study. However because these machines are too large and expensive to build with a small group of people, working with plasmas to study fusion can be a highly collaborative effort. Though we design, develop, and bench test our instruments at FIU, we will be collecting our data offsite at a spherical tokamak in England. | ||||||||
Changed: | ||||||||
< < | We are currently designing a four channel prototype instrument (an array of four detectors) to determine the time dependent charged fusion product profile of a spherical tokamak. In general, we want to know where and when charged particles from fusion reactions are created inside of a fusion plasma, the plasma is contained inside of the tokamak. We will look for protons and tritons (isotopes of hydrogen) which are products from fusion reactions between deuterium (another hydrogen isotope). | |||||||
> > | We are currently designing a four channel prototype instrument (an array of four detectors) to determine the time dependent charged fusion product profile of a spherical tokamak. In general, we want to know where and when charged particles from fusion reactions are created inside of a fusion plasma, where the plasma is contained inside of the tokamak. We will look for protons and tritons (isotopes of hydrogen) which are products from fusion reactions between deuterium (another hydrogen isotope). | |||||||
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< < | LEFT: Pierre, our collaborator Bob Kaita (PPPL), Carlos RIGHT: Carlos, Omar, Pierre, our collaborator Doug Darrow (PPPL) | |||||||
> > | LEFT: Pierre, our collaborator Bob Kaita (PPPL), Carlos RIGHT: Carlos, Omar, Pierre, our collaborator Doug Darrow (PPPL) | |||||||
Changed: | ||||||||
< < | ABOVE: Our collaborator Lane Roquemore (PPPL), Pierre, Omar, and Carlos | |||||||
> > | ABOVE: Daniel Andruczyk (PPPL), our collaborator Lane Roquemore (PPPL), Pierre, Omar, and Carlos | |||||||
Research Facilities: |
Line: 1 to 1 | ||||||||
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Line: 6 to 6 | ||||||||
FIU Experimental Plasma Physics (FEPP) Research Group | ||||||||
Changed: | ||||||||
< < | Please visit our TWiki page for our Charged Fusion Products Diagnostic, also called the Proton Detector | |||||||
> > | Our instrument, or diagnostic, will allow us to study plasma instabilities like Alfven eigenmodes. Studying and understanding plasma instabilities will lead to controlling instabilities which can deteriorate plasma performance. Plasma performance is a concern because stable plasmas are necessary to create commercially viable nuclear fusion energy, a much safer energy source than current nuclear fission power plants.
Spherical tokamaks are machines that can create and confine a plasma to sustain the nuclear fusion reactions we want to study. However because these machines are too large and expensive to build with a small group of people, working with plasmas to study fusion can be a highly collaborative effort. Though we design, develop, and bench test our instruments at FIU, we will be collecting our data offsite at a spherical tokamak in England.
We are currently designing a four channel prototype instrument (an array of four detectors) to determine the time dependent charged fusion product profile of a spherical tokamak. In general, we want to know where and when charged particles from fusion reactions are created inside of a fusion plasma, the plasma is contained inside of the tokamak. We will look for protons and tritons (isotopes of hydrogen) which are products from fusion reactions between deuterium (another hydrogen isotope).
| |||||||
Changed: | ||||||||
< < |
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> > |
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Changed: | ||||||||
< < | LEFT: Werner next to MAST RP RIGHT: Ramona next to MAST RP | |||||||
> > | LEFT: Werner next to the Mega Amp Spherical Tokamak (MAST) RIGHT: Ramona next to MAST | |||||||
Principal Investigator (PI): | ||||||||
Changed: | ||||||||
< < |
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> > |
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Graduate Student:
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Line: 23 to 36 | ||||||||
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< < | LEFT: Pierre, our collaborator Bob Kaita (PPPL), Carlos RIGHT: Carlos, Omar, Pierre, our collaborator Doug Darrow (PPPL) | |||||||
> > | Collaborators:
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Changed: | ||||||||
< < | Our collaborator Lane Roquemore (PPPL), Pierre, Omar, and Carlos | |||||||
> > | ABOVE: Our collaborator Lane Roquemore (PPPL), Pierre, Omar, and Carlos | |||||||
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< < |
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> > |
Research Facilities:
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Changed: | ||||||||
< < |
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> > | Graduate Research:
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Deleted: | ||||||||
< < | LEFT: Ultra High Vacuum system for bench testing RIGHT: Stainless steel housing unit for detectors (for diagnostic to be installed in MAST) | |||||||
Deleted: | ||||||||
< < | | |||||||
Changed: | ||||||||
< < | Page for our Charged Fusion Products Diagnostic that would have been installed in NSTX: | |||||||
> > | LEFT: Ultra High Vacuum system for bench testing RIGHT: Stainless steel housing unit for detectors (for diagnostic to be installed in MAST)
3-D reconstruction of dust particle trajectories in the NSTX
The original Charged Fusion Products Diagnostic that would have been installed in NSTX (there was a premature shutdown of NSTX for its upgrade): | |||||||
Deleted: | ||||||||
< < |
| |||||||
Changed: | ||||||||
< < | * | |||||||
> > | LEFT AND RIGHT: Images of 3D cad drawings for detector housing/ probe head with the ability to change detector orientations | |||||||
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< < |
LEFT: Pierre, our collaborator Bob Kaita (PPPL), Carlos RIGHT: Carlos, Omar, Pierre, our collaborator Doug Darrow (PPPL) | |||||||
> > | LEFT: Pierre, our collaborator Bob Kaita (PPPL), Carlos RIGHT: Carlos, Omar, Pierre, our collaborator Doug Darrow (PPPL) | |||||||
Our collaborator Lane Roquemore (PPPL), Pierre, Omar, and Carlos | ||||||||
Line: 37 to 34 | ||||||||
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Added: | ||||||||
> > | ||||||||
LEFT: Ultra High Vacuum system for bench testing RIGHT: Stainless steel housing unit for detectors (for diagnostic to be installed in MAST) |
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LEFT: Werner next to MAST RP RIGHT: Ramona next to MAST RP | ||||||||
Changed: | ||||||||
< < | | |||||||
> > | | |||||||
Changed: | ||||||||
< < | PI: Werner Boeglin | |||||||
> > | Principal Investigator (PI):
| |||||||
Changed: | ||||||||
< < | Graduate Student: Ramona V Perez | |||||||
> > | Graduate Student:
| |||||||
Changed: | ||||||||
< < | Undergraduate Students: Adrianna Angulo, Pierre Avila, Omar Leon, Carlos Lopez | |||||||
> > | Undergraduate Students:
| |||||||
LEFT: Pierre, our collaborator Bob Kaita (PPPL), Carlos RIGHT: Carlos, Omar, Pierre, our collaborator Doug Darrow (PPPL) | ||||||||
Line: 29 to 35 | ||||||||
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Changed: | ||||||||
< < |
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> > |
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Added: | ||||||||
> > | LEFT: Ultra High Vacuum system for bench testing RIGHT: Stainless steel housing unit for detectors (for diagnostic to be installed in MAST) | |||||||
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> > | ||||||||
Page for our Charged Fusion Products Diagnostic that would have been installed in NSTX: | ||||||||
Changed: | ||||||||
< < | ||||||||
> > | * | |||||||
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Undergraduate Students: Adrianna Angulo, Pierre Avila, Omar Leon, Carlos Lopez | ||||||||
Changed: | ||||||||
< < | LEFT: Pierre, our collaborator Bob Kaita, Carlos RIGHT: Carlos, Omar, Pierre, our collaborator Doug Darrow (PPPL) | |||||||
> > | LEFT: Pierre, our collaborator Bob Kaita (PPPL), Carlos RIGHT: Carlos, Omar, Pierre, our collaborator Doug Darrow (PPPL) | |||||||
Our collaborator Lane Roquemore (PPPL), Pierre, Omar, and Carlos | ||||||||
Added: | ||||||||
> > | ||||||||
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> > | ||||||||
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> > |
FIU Experimental Plasma Physics (FEPP) Research Group
Please visit our TWiki page for our Charged Fusion Products Diagnostic, also called the Proton Detector |
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