Development of an ultra-thin parallel plate ionization chamber for dosimetry in FLASH radiotherapy

Gómez Rodríguez, Faustino
González Castaño, Diego Miguel
Gómez Fernández, Nicolás
Pardo Montero, Juan
Schüller, Andreas
Gasparini, Alessia
Vanreusel, Verdi
Verellen, Dirk
Felici, Giuseppe
Kranzer, Rafael
Paz Martín, José

Open PDF

Open link

Publication date

January 2022

DOI

10.1002/mp.15668

Publisher

Wiley

Journal

issn:2313-4712

Language

English

Abstract

Conventional air ionization chambers (ICs) exhibit ion recombination correction factors that deviate substantially from unity when irradiated with dose per pulse magnitudes higher than those used in conventional radiotherapy. This fact makes these devices unsuitable for the dosimetric characterization of beams in ultra-high dose per pulse as used for FLASH radiotherapyParticipating States; Horizon 2020; European Metrology Programme for Innovation and Research, Grant/Award Number: 18HLT04UHD PulseS

Extracted data

We use cookies to provide a better user experience.

Data Protection

Development of an ultra-thin parallel plate ionization chamber for dosimetry in FLASH radiotherapy

Abstract

Extracted data

Development of an ultra-thin parallel plate ionization chamber for dosimetry in FLASH radiotherapy

Abstract

Extracted data

Related items

Related items