Using Zirconium Borohydride as Neutron Shield in LINAC head

Authors

  • Asghar Hadadi Assistant professor, Department of Nuclear Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran
  • Dariush Sardari Assistant professor, Department of Nuclear Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran
  • Elham Saeedzadeh Assistant professor, Department of Nuclear Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran
Abstract:

Introduction: One of the concerns about using of high energy photons in radiotherapy is neutron contamination production. The threshold energy of photoneutron production in most materials with high atomic number is about 7MeV. Therefore, it seems to be logical that the main components with high atomic number elements used in the LINAC head have a large contribution to the neutron contamination production. In this study, we investigated the neutron contamination flux of Varian Clinac 2100 machine and design a secondary shield to reduce the neutron contamination dose and flux. Materials and Methods: The Varian Clinac 2100 linear accelerator with 18MV performance energy was simulated by the FLUKA Monte Carlo code. Percent depth dose (PDD) and dose profile curves was measured using a PTW thimble chamber to validate our mode. In a device with photon mode and 18MV performance energy, materials with low and moderate atomic number, such as water and polyethylene, play an effective role in slowing down the fast neutrons. Slow neutrons are easily absorbed by the certain materials, such as boron. In this research, four different materials of water, polyethylene, borated polyethylene and zirconium borohydride which have been considered as suitable neutron shield in previous studies, have been design as a second shield. The shield is designed with a cylindrical shape and with a thickness of 5 cm around the LINAC head elements. Results: Because of hydrogen and zirconium atoms, the zirconium borohydride is more effective in slowing down the fast neutrons. Also, the boron absorbs the slowed down neutrons. Furthermore, the process of absorbing neutrons does not produce a significant secondary gamma. Using zirconium borohydride, the neutron flux around the LINAC is reduced more than 70%. Also, the neutron contamination dose in out-of-field areas in water phantom are reduced by 81%, which increases the safety of linear accelerators for patients and personnel significantly. Conclusion: We can conclude that among the four materials used for the neutron shielding In this study, the zirconium borohydride has a good shielding properties against the neutron contamination.

Upgrade to premium to download articles

Sign up to access the full text

Already have an account?login

similar resources

Neutron Contamination Unexpected Dose in Varian LINAC

Introduction: Neutron contamination is very harmful for the patients receiving radiation therapy due to the high relative biological effect of neutrons. Medical linear accelerators head are made up of materials with high atomic numbers, and High-energy photons interaction with heavy materials can produce neutron contamination. In this study, neutron equivalent dose, neutron spe...

full text

Estimation of Neutron Production from Accelerator Head Assembly of 15 MV Medical LINAC using FLUKA Simulations

For the production of a clinical 15 MV photon beam, the design of accelerator head assembly has been optimized using Monte Carlo based FLUKA code. The accelerator head assembly consists of etarget, flattening filter, primary collimator and an adjustable rectangular secondary collimator. Accelerators used for medical radiation therapy generate continuous energy gamma rays called bremsstrahlung r...

full text

Design and fabrication of high density borated polyethylene nanocomposites as a neutron shield

Background: Polyethylene composites including boron can be used as an effective neutron shield. Our investigation focuses on manufacturing borated polyethylene nano-composite. The purpose of this study is to design a radiation shield for use in both neutron and gamma fields. Materials and Methods: Borated polyethylene shields containing 2%, and 5% weight percentage of Boron nano-particles w...

full text

Synthesis, structure and dehydrogenation of zirconium borohydride octaammoniate.

A new metal borohydride ammoniate (MBA), Zr(BH4)4·8NH3, was synthesized via ammoniation of the Zr(BH4)4 crystal. Zr(BH4)4·8NH3 has a distinctive structure and the highest coordination number of NH3 groups among all the known MBAs. This compound could quickly dehydrogenate at 130 °C, enabling it a potential hydrogen storage material.

full text

Linac-driven Spallation-neutron Source*

Strong interest has arisen in accelerator-driven spallationneutron sources that surpass existing facilities (such as ISIS at Rutherford or LANSCE at Los Alamos) by more than an order of magnitude in beam power delivered to the spallation target. The approach chosen by Los Alamos (as well as the European Spallation Source) provides the full beam energy by acceleration in a linac as opposed to pr...

full text

The influence of neutron contamination on pacemaker in photon beam radiotherapy by LINAC using the Monte Carlo method

Introduction: In radiation therapy with high-energy photon beams (E > 7 MeV) neutrons are generated mainly in LINACs head thorough (γ, n) interactions. These neutrons affect the shielding requirements in radiation therapy rooms. According to the protocol TG-34, photon absorbed dose of 10Gy can cause permanent damage to the pacemaker and the dose of 2Gy can make minor changes in...

full text

My Resources

Save resource for easier access later

Save to my library Already added to my library

{@ msg_add @}


Journal title

volume 15  issue Special Issue-12th. Iranian Congress of Medical Physics

pages  137- 137

publication date 2018-12-01

By following a journal you will be notified via email when a new issue of this journal is published.

Hosted on Doprax cloud platform doprax.com

copyright © 2015-2023