Difference between revisions of "PhysWebPageBannerContent"

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*radiation effects in materials and devices  
 
*radiation effects in materials and devices  
 
*nuclear reactor fuel cycle physics  
 
*nuclear reactor fuel cycle physics  
*accelerator applications
 
*biology
 
 
*fundamental nuclear and particle physics.
 
*fundamental nuclear and particle physics.
  
=Clean Room=
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=The Idaho Accelerator Center (IAC)=
  
[[File:092711_2CLAS12R1StringingBegins.jpg| 200 px]]
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The Idaho Accelerator Center (IAC) is a research facility operated by Idaho State University located in southeast Idaho. It provides opportunities for scientists and engineers from the University, the private sector, and  national laboratories to utilize electron accelerators. It serves as a principal investigating conduit for nuclear physics applications research and development in materials science, biology, homeland, and national security.  Student's from the Physics department are involved in all aspects of the center, from operating electron accelerators to performing experiments in nuclear physics applications.  For more information go to  iac.isu.edu.
  
The Idaho Accelerator Center and ISU's Department of Physics are building detectors for an upgrade of Jefferson Lab's Hall B. The detectors are wire chambers containing approximately 5,000, 30 micron diameter wires that are used to form gaseous cells which can detect the passage of ionizing particles. The 2 year long project will construct detectors that are about 6 feet high and will eventually be installed at Jefferson Lab in Newport News, Va. The detectors will be part of a larger detector that will be used by a group of more than 100 physicists to perform fundamental nuclear physics measurements.
 
  
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[[File:IAC_11-21-16.png | 200 px]]
  
=The Idaho Accelerator Center (IAC)=
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=Detector Construction=
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[[File:092711_2CLAS12R1StringingBegins.jpg| 200 px]]
  
The Idaho Accelerator Center (IAC) is a research facility operated by Idaho State University located in southeast Idaho. It provides opportunities for scientists and engineers from the University, the private sector, and  national laboratories to utilize electron accelerators. It serves as a principal investigating conduit for nuclear physics applications research and development in materials science, biology, homeland, and national security. Student's from the Physics department are involved in all aspects of the center, from operating electron accelerators to performing experiments in nuclear physics applications.  For more information go to  iac.isu.edu.
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The Idaho Accelerator Center and ISU's Department of Physics constructed detector for the Department of Energy's Jefferson Lab facility in Newport New, Virginia. The detectors are wire chambers containing approximately 5,000, 30 micron diameter wires that are used to form gaseous cells which can detect the passage of ionizing particles. The 2 year long project will construct detectors that are about 6 feet high and will eventually be installed at Jefferson Lab in Newport News, Va. The detectors will be part of a larger detector that will be used by a group of more than 100 physicists to perform fundamental nuclear physics measurements.
  
  
[[File:IAC_11-21-16.png | 200 px]]
 
  
 
=Nucleon's Fractional Down Quark Polarization=
 
=Nucleon's Fractional Down Quark Polarization=
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[[File:DeltadOverd_11-21-16.png| 200 px]]
 
[[File:DeltadOverd_11-21-16.png| 200 px]]
  
= The Nucleon's Mass=
 
 
=CREX/PREX=
 
  
 
=Photon Activation Analysis=
 
=Photon Activation Analysis=
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[[File:PAA_GoldCoins_12-2-16.png| 200 px]]
 
[[File:PAA_GoldCoins_12-2-16.png| 200 px]]
 
= Neutron Correlations=
 
 
=PAA=
 
 
  
  

Revision as of 21:43, 1 November 2017

Physics Department Mission /overview

Our mission: The mission of the Idaho State University Department of Physics is to pursue cutting edge research in both fundamental and applied physics, and train of the next generation of physical scientists, technicians, and educators.

Overview

The Idaho State University Department of Physics is actively engaged in a variety of cutting edge research pursuits, all of which focus on the use of experimental nuclear physics techniques to address problems in both fundamental and applied science. Major efforts include:

  • nuclear non-proliferation and homeland security
  • radiation effects in materials and devices
  • nuclear reactor fuel cycle physics
  • fundamental nuclear and particle physics.

The Idaho Accelerator Center (IAC)

The Idaho Accelerator Center (IAC) is a research facility operated by Idaho State University located in southeast Idaho. It provides opportunities for scientists and engineers from the University, the private sector, and national laboratories to utilize electron accelerators. It serves as a principal investigating conduit for nuclear physics applications research and development in materials science, biology, homeland, and national security. Student's from the Physics department are involved in all aspects of the center, from operating electron accelerators to performing experiments in nuclear physics applications. For more information go to iac.isu.edu.


IAC 11-21-16.png

Detector Construction

092711 2CLAS12R1StringingBegins.jpg

The Idaho Accelerator Center and ISU's Department of Physics constructed detector for the Department of Energy's Jefferson Lab facility in Newport New, Virginia. The detectors are wire chambers containing approximately 5,000, 30 micron diameter wires that are used to form gaseous cells which can detect the passage of ionizing particles. The 2 year long project will construct detectors that are about 6 feet high and will eventually be installed at Jefferson Lab in Newport News, Va. The detectors will be part of a larger detector that will be used by a group of more than 100 physicists to perform fundamental nuclear physics measurements.


Nucleon's Fractional Down Quark Polarization

The contributions of a nucleon's constituents, quarks and gluons, to the spin of the nucleon has been a long standing question since the 1980s when it was first observed that quarks contribute less than 40%. The spin physics program at ISU is working to measure the contribution of a nucleon's down quarks to its spin. This is referred to as the down quark fractional polarization. Measurements of this quantity when compared with the standard theoretical description of quark interactions, Quantum Chromodynamics, have yet to indicate a transition from the observed negative values to the predicted positive value of unity. One goal of ISU's spin physics program is to determine the veracity of the theoretical prediction through a series of measurements with the expected precision shown above (CLAS12).



DeltadOverd 11-21-16.png


Photon Activation Analysis

Photon Activation Analysis is a "non-destructive" process of quantifying nuclear isotope concentrations by exciting a tiny fraction of the nuclei in a material of interest interest using photons in the MeV range. The photons used to irradiate these materials of interest are produced when electrons accelerated by the Idaho Accelerator Center's Linacs are impinged upon a radiator target, typically Tungsten, and undergo a bremsstrahlung interaction. Stable nuclei can become unstable if a photon "knocks out" either a proton or neutron. This unstable nucleus can emitt radiation in the form photons as part of its decay process. A fingerprint unique to the specific nuclear isotope is constructed based on the energy of the observed photon and the half life of the isotope. Below is an example where these isotope signatures are used to determine the provenance of Gold coins.


PAA GoldCoins 12-2-16.png



PhysicsWebPage#Content_for_the_banner