Jan Jakubek
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Explore the profile of Jan Jakubek including associated specialties, affiliations and a list of published articles.
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Articles
15
Citations
47
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Recent Articles
1.
Stasica-Dudek P, Oancea C, Granja C, Gugula K, Jakubek J, Kopec R, et al.
Phys Med
. 2025 Jan;
130:104885.
PMID: 39826466
Purpose: With the increasing use of proton therapy, there is a growing emphasis on including radiation quality, often quantified by linear energy transfer, as a treatment plan optimization factor. The...
2.
Oancea C, Sykorova K, Jakubek J, Pivec J, Riemer F, Worm S, et al.
Phys Med
. 2024 Dec;
129():104872.
PMID: 39667142
Background: FLASH radiotherapy necessitates the development of advanced Quality Assurance methods and detectors for accurate monitoring of the radiation field. This study introduces enhanced time-resolution detection systems and methods used...
3.
Ochoa-Parra P, Schweins L, Abbani N, Ghesquiere-Dierickx L, Gehrke T, Jakubek J, et al.
Med Phys
. 2024 Sep;
51(12):9217-9229.
PMID: 39306865
Background: In-vivo monitoring methods of carbon ion radiotherapy (CIRT) includes explorations of nuclear reaction products generated by carbon-ion beams interacting with patient tissues. Our research group focuses on in-vivo monitoring...
4.
Kelleter L, Marek L, Echner G, Ochoa-Parra P, Winter M, Harrabi S, et al.
Sci Rep
. 2024 Jul;
14(1):15452.
PMID: 38965349
Ion-beam radiotherapy is an advanced cancer treatment modality offering steep dose gradients and a high biological effectiveness. These gradients make the therapy vulnerable to patient-setup and anatomical changes between treatment...
5.
Oancea C, Solc J, Bourgouin A, Granja C, Jakubek J, Pivec J, et al.
Phys Med Biol
. 2023 Aug;
68(18).
PMID: 37607560
This work presents a method for enhanced detection, imaging, and measurement of the thermal neutron flux.. Measurements were performed in a water tank, while the detector is positioned out-of-field of...
6.
Oancea C, Granja C, Marek L, Jakubek J, Solc J, Bodenstein E, et al.
Phys Med
. 2023 Jan;
106:102529.
PMID: 36657235
Stray radiation produced by ultra-high dose-rates (UHDR) proton pencil beams is characterized using ASIC-chip semiconductor pixel detectors. A proton pencil beam with an energy of 220 MeV was utilized to...
7.
Solc J, Jakubek J, Marek L, Oancea C, Pivec J, Smoldasova J, et al.
Phys Med
. 2022 Aug;
101:79-86.
PMID: 35985102
The track structure of the signal measured by the semiconductor pixel detector Timepix3 was modelled in the Monte Carlo MCNP® code. A detailed model at the pixel-level (256 × 256...
8.
Schuller A, Heinrich S, Fouillade C, Subiel A, De Marzi L, Romano F, et al.
Phys Med
. 2020 Nov;
80:134-150.
PMID: 33181444
UHDpulse - Metrology for advanced radiotherapy using particle beams with ultra-high pulse dose rates is a recently started European Joint Research Project with the aim to develop and improve dosimetry...
9.
Dreier E, Silvestre C, Kehres J, Turecek D, Khalil M, Hemmingsen J, et al.
Opt Lett
. 2020 Feb;
45(4):1021-1024.
PMID: 32058533
Omni-directional, ultra-small-angle x-ray scattering imaging provides a method to measure the orientation of micro-structures without having to resolve them. In this letter, we use single-photon localization with the Timepix3 chip...
10.
Hartmann B, Granja C, Jakubek J, Gehrke T, Gallas R, Pospisil S, et al.
Int J Part Ther
. 2019 Nov;
3(4):439-449.
PMID: 31772994
Purpose: In carbon ion beam radiation therapy, fragmentation processes within the patient lead to changes in the composition of the particle field with increasing depth. Consequences are alterations of the...