• Home
    • What is LENS?
    • Neutron Science
      • Importance of Neutron Science
      • Neutron Science Research Areas
      • Neutron Science Links
    • Recent News
    • Conferences and Workshops
    • View LENS Webcam
    • Construction History
    • Photo Gallery
  • DUT
    • SANS
      • Instrument Description
      • Instrument Characteristics
      • SANS Sample Environment
      • SANS Science Applications
    • SESAME
    • Future Beamlines
  • Beam Properties
    • Research at LENS
    • Faculty Research Areas
    • Publications
  • Dosimetry
  • Device Test
    • Main Directory
    • Current Graduate Students
    • Current Postdoctoral Researchers
  • Directory
    • Undergraduate Students
      • Neutron Scattering Courses
      • Applied Physics Program
      • REU Program
      • Internships
    • Graduate Students
    • Postdoctoral Opportunities
    • Public Opportunities
      • ISTEME for k-12 students
      • Mini University
      • Outreach
  • User Information
    • Applying for Beamtime
    • Visiting Us
      • Access to LENS
      • LENS Tour
      • Visiting Bloomington
    • Travel and Lodging Information
    • Bloomington Information
  • Internal
    • LENS Operations Schedule
    • LENS Software Wiki
      • Experimental Control
      • Data Reduction
      • Data Analysis and Visualization
    • Lab Safety
    • Login Portal
  • Contact Us

  • News and Events

    • NREF Beam Schedule
    • Recent News
    • Conferences and Workshops

  • Other Information

    • Apply for Beamtime
    • Beam Pricing
    • Visitor Information
    • Bloomington Information
    • Center for Exploration of
      Energy and Matter (CEEM)
    • LENS at CEEM
    • NREF Facebook Page
    		•
      site search by freefind

Dosimetry


Canberra GC2020 Germanium Detector for Gamma detection

 

 

 

 

 

The neutron spectrum inside the moderator cavity has been characterized using foil activation techniques. Measured neutron intensities are compared to MCNPX calculations.

Copper,Gold, and Zinc foils were used to measure the thermal flux, i.e. neutrons with energies up to 1eV. Iron foils and sulfur pellets were used to measure the fast neutron flux with energies above 0.1 MeV. The fission monitor also provides real time relative dosimetry.

 

Measured 

1010 n/s/cm2

MCNPX 

1010 n/s/cm2

Fast, > ~ 0.1 MeV,

Fe, S

 1.25+/-.05 1.65

Thermal, < 1 eV,

Cu,Au, Zn

 0.32+/-.01 0.34

S, Fe and Cu,Au, Zn foil activations have been measured at 8cm from the Be target with 13MeV and 0.16mC proton beam. Measured intensities are ~10-20% lower then calculations.

 

 

 

 

Check out the ALPHA facebook page! NREF facebook page  •    ©  Copyright 2012  •  The Trustees of Indiana University  •  Copyright Complaints  •  Privacy Notice  •  Design by NREF  •  Template by CSS Templates

  Contact Webmaster