Design and development of Ionization Profile Monitor for the Cryogenic sections of the ESS Linac

Benedetti, F.; Abbon, P.; Belloni, F.; Coulloux, G.; Gougnaud, Francoise; Lahonde-Hamdoun, C.; Bourlout, P. Le; Mariette, Yannick; Marroncle, J.; Mols, J.P.; Nadot, Victor; Scola, L.; Tauzin, G.; Tarkeshian, R.; Thomas, Cyrille

doi:10.1051/epjconf/202022501009

“…Practice shows that in all cases of applied research one needs a device that would not affect the beam and have a good resolution for monitoring changes in the distribution during exposition. It is known that the device that meets such requirements is, for example, a monitor based on ionization of residual gas, IPM [17]. Unfortunately, however, most of the described IPM monitors only measure the distribution in one coordinate.…”

Section: Introductionmentioning

confidence: 99%

IPM Monitor for Nondestructive Diagnostics of Wide Beams in Applied Research

Issatov¹,

Teterev²,

Митрофанов³

et al. 2023

Preprint

0

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An IPM monitor to measure a detailed profile of the beam has been developed and constructed. The monitor was developed in the course of modernization of the structure operating on the basis of electric field scanning. The monitor also consists of an extractor, a scanner and two electrostatic analyzers in series. A system to control the monitor and process the data has been developed and produced. As a result of performance testing of the monitor it is established that it allows detailed measurements of the profiles of wide beams with a resolution of 1.5х1.5 mm2. It is found that the monitor minimum sensitivity is n‧103 particle/cm2‧s for the 132Хе26+ ion beam with the energy 1.2 MeV/nucleon and the pressure 5 10-4 Pa of permanent gas in the diagnostic unit. The monitor fits for control of both creation of a uniform distribution of the beam profile and continuous observation of uniformity variations during exposition. The detail profile monitors have been developed for the 45 mm diameter beam for a setup to conduct studies in the field of radiobiology and for the 60mm diameter beam for investigation of radiation effects of radioelectronic equipment.

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“…Practice shows that in all cases of applied research one needs a device that would not affect the beam and have a good resolution for monitoring changes in the distribution during exposition. It is known that the device that meets such requirements is, for example, a monitor based on ionization of residual gas, IPM [17]. Unfortunately, however, most of the described IPM monitors only measure the distribution in one coordinate.…”

Section: Introductionmentioning

confidence: 99%

IPM Monitor for Nondestructive Diagnostics of Wide Beams in Applied Research

Issatov¹,

Teterev²,

Митрофанов³

et al. 2023

Preprint

0

View full text Add to dashboard Cite

An IPM monitor to measure a detailed profile of the beam has been developed and constructed. The monitor was developed in the course of modernization of the structure operating on the basis of electric field scanning. The monitor also consists of an extractor, a scanner and two electrostatic analyzers in series. A system to control the monitor and process the data has been developed and produced. As a result of performance testing of the monitor it is established that it allows detailed measurements of the profiles of wide beams with a resolution of 1.5х1.5 mm2. It is found that the monitor minimum sensitivity is n‧103 particle/cm2‧s for the 132Хе26+ ion beam with the energy 1.2 MeV/nucleon and the pressure 5 10-4 Pa of permanent gas in the diagnostic unit. The monitor fits for control of both creation of a uniform distribution of the beam profile and continuous observation of uniformity variations during exposition. The detail profile monitors have been developed for the 45 mm diameter beam for a setup to conduct studies in the field of radiobiology and for the 60mm diameter beam for investigation of radiation effects of radioelectronic equipment.

show abstract