2-Oborn BM,
Metcalfe PE,
Butson MJ,
Rosenfeld AB. Monte Carlo characterization of skin doses in 6 MV transverse field MRI-linac systems: effect of field size, surface orientation, magnetic field strength, and exit bolus. Med Phys 2010;37(10):5208-17.
3-Bostick WH. Possible techniques in direct-electron beam tumor therapy. Phys Rev 1950;77(4):564–5.
4-Shih CC. High energy electron radiotherapy in a magnetic field. Med Phys 1975;2(1):9-13.
5-Nardi E, Barnea G. Electron beam therapy with transverse magnetic fields. Med Phys 1999;26(6):967-73.
6-Lee MC, Ma CM. Monte Carlo characterization ofclinical electron beams in transverse magnetic fields. Phys Med Biol 2000;45(10):2947-67.
7-Jette D. Magnetic fields with photon beams: Monte Carlo calculations for a model magnetic field. Med Phys 2000;27(12):2726-38.
8-Li XA,
Reiffel L,
Chu J,
Naqvi S. Conformal photon-beam therapy with transverse magnetic fields: a Monte Carlo study. Med Phys 2001;28(2):127-33.
9-Bielajew AF. The effect of strong longitudinal magnetic fields on dose deposition from electron and photon beams. Med Phys 1993;20(4):1171-9.
10-Litzenberg DW, Benedick A, McShan DL. Experimental apparatus to measure the effects of strong longitudinal magnetic fields on photon and electron radiotherapy beams. Phys Med Biol 2000.
13-Chen Y,
Bielajew AF,
Litzenberg DW,
Moran JM,
Becchetti FD. Magnetic confinement of electron and photon radiotherapy dose: a Monte Carlo simulation with a nonuniform longitudinal magnetic field. Med Phys 2005;32(12):3810-8.
14-Nettelbeck H, Takacs GJ, Rosenfeld AB. Effect of transverse magnetic fields on dose distribution and RBE of photon beams: comparing PENELOPE and EGS4 Monte Carlo codes. Phys Med Biol 2008;53(18):5123-37.
15-Belousov A, Chernyaev AP, Varzar SM. Simulation of the conditions of photon and electron beam irradiation in magnetic fields for increasing conformity of radiation therapy II. B Russ Acad Sci: Phys 2007;71(6):841-3.
16-Belousov AV, Namestnikov AS, Chernyaev AP. Model for the calculation of the trajectories of electron movements in an aqueous environment placed in a magnetic field. Moscow Univ Phys Bull 2011;66(5):458-61.
17-Ma L. Dosimetric properties of magnetically collimated electron beams for radiation therapy. Med Phys 2004;31(11):2973-7.
18-Belousov AV,
Plotnikov AB,
Chernyaev AP,
Shvedunov VI. Increasing the efficiency of target irradiation with photon and electron beams in radiation therapy. Instrum Exp Tech 2003;46(6):828-31.
19-Jette D. Magnetic fields with photon beams: dose calculation using electron multiple-scattering theory. Med Phys 2000;27(8):1705-16.
20-Phaisangittisakul N, D'Souza WD, Ma L. Magnetic collimation and metal foil filtering for electron range and fluence modulation. Med Phys 2004;31(1):17-23.