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What is Calorimeter – Definition

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In particle physics, a calorimeter is an experimental device that measures the energy a particle loses as it passes through. Electromagnetic calorimeters and hadronic calorimeters. Radiation Dosimetry

In particle physics , a calorimeter is an experimental device that measures the energy a particle loses as it passes through. Calorimeters are blocks of instrumented material in which particles to be measured are fully absorbed and their energy transformed into a measurable quantity. A signal detected by a calorimeter is proportional to that deposited energy.  Most particles enter the calorimeter and initiate a particle shower and the particles’ energy is deposited in the calorimeter, collected, and measured. The interaction of the incident particle with the detector can be via electromagnetic interaction or via strong processes. Therefore, calorimeters can be broadly divided into:

  • Electromagnetic calorimeters are used to measure the energy of electrons and photons as they interact (e.g. bremsstrahlung, pair production) with the electrically charged particles in matter. An electromagnetic shower begins when a high-energy electron, positron or photon enters a material. At high energies (above a few MeV, below which photoelectric effect and Compton scattering are dominant), photons interact with matter primarily via pair production — that is, they convert into an electron-positron pair, interacting with an atomic nucleus or electron in order to conserve momentum.
  • Hadronic calorimeters are used to measure mainly hadrons through their strong and electromagnetic interactions. Similarly as for electromagnetic showers, hadrons can deposit energy in matter through a series of successive interactions. The physical process that cause the propagation of a hadron shower are considerably different from the processes in electromagnetic showers. Hadrons are relatively massive, and cannot radiate much of their energy through bremsstrahlung, they lose their energy mainly through multiple nuclear collisions.

Large calorimeters were developed during the early 1960s, especially for application in experiments dealing with highenergy cosmic rays, and they have become exceedingly important tools for measuring energies of particles produced at large accelerators.

References:

Radiation Protection:

  1. Knoll, Glenn F., Radiation Detection and Measurement 4th Edition, Wiley, 8/2010. ISBN-13: 978-0470131480.
  2. Stabin, Michael G., Radiation Protection and Dosimetry: An Introduction to Health Physics, Springer, 10/2010. ISBN-13: 978-1441923912.
  3. Martin, James E., Physics for Radiation Protection 3rd Edition, Wiley-VCH, 4/2013. ISBN-13: 978-3527411764.
  4. U.S.NRC, NUCLEAR REACTOR CONCEPTS
  5. U.S. Department of Energy, Instrumantation and Control. DOE Fundamentals Handbook, Volume 2 of 2. June 1992.

Nuclear and Reactor Physics:

  1. J. R. Lamarsh, Introduction to Nuclear Reactor Theory, 2nd ed., Addison-Wesley, Reading, MA (1983).
  2. J. R. Lamarsh, A. J. Baratta, Introduction to Nuclear Engineering, 3d ed., Prentice-Hall, 2001, ISBN: 0-201-82498-1.
  3. W. M. Stacey, Nuclear Reactor Physics, John Wiley & Sons, 2001, ISBN: 0- 471-39127-1.
  4. Glasstone, Sesonske. Nuclear Reactor Engineering: Reactor Systems Engineering, Springer; 4th edition, 1994, ISBN: 978-0412985317
  5. W.S.C. Williams. Nuclear and Particle Physics. Clarendon Press; 1 edition, 1991, ISBN: 978-0198520467
  6. G.R.Keepin. Physics of Nuclear Kinetics. Addison-Wesley Pub. Co; 1st edition, 1965
  7. Robert Reed Burn, Introduction to Nuclear Reactor Operation, 1988.
  8. U.S. Department of Energy, Nuclear Physics and Reactor Theory. DOE Fundamentals Handbook, Volume 1 and 2. January 1993.
  9. Paul Reuss, Neutron Physics. EDP Sciences, 2008. ISBN: 978-2759800414.

See also:

Radiation Detection

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