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** IOP Science link: [https://iopscience.iop.org/article/10.1088/1361-6560/ab8ddb doi:10.1088/1361-6560/ab8ddb] | ** IOP Science link: [https://iopscience.iop.org/article/10.1088/1361-6560/ab8ddb doi:10.1088/1361-6560/ab8ddb] | ||
* Tambave G, Alme J, Barnaföldi | * Tambave, G., Alme, J., Barnaföldi, G.G., Barthel, R., Van Den Brink, A., Brons, S., et al.<b> Characterization of monolithic CMOS pixel sensor chip with ion beams for application in particle computed tomography. </b> <i> Nuclear Instruments and Methods in Physics Research Section A</i> 2020;958:162626. | ||
** Published manuscript: [[Media: Tambave-2020-Characterization-of-monolithic-cm.pdf| PDF]] | ** Published manuscript: [[Media: Tambave-2020-Characterization-of-monolithic-cm.pdf| PDF]] | ||
** Elsevier link: [https://www.sciencedirect.com/science/article/pii/S0168900219311258?via%3Dihub doi:10.1016/j.nima.2019.162626] | ** Elsevier link: [https://www.sciencedirect.com/science/article/pii/S0168900219311258?via%3Dihub doi:10.1016/j.nima.2019.162626] |
Revision as of 20:31, 9 February 2021
Wiki for the proton CT project
Documentation and Howto's
- General Documentation on how to install and use the involved software packages, the development workflow, etc.
Publications
List of publications from the project.
Workpackage Reports
- pCT-WP1-01-Rev2 Detector design specifications (Rev2: Added carrier board thickness recommendations) --- See also submitted article on design optimization
- pCT-WP1-02-Rev3 Radiation environment and placement of electronics (Rev2: Updated results and assumptions, Rev3: Updated with 1-10cm results) (Please feel free to contact Jarle Rambo Sølie if there are any questions regarding the contents of this document.
Theses
- Daniel Aadnevik - MSc - 2014 - Extremely high-granularity digital tracking calorimeter for the detection of scattered protons in pCT
- Kristian Austreim - MSc - 2015 - Proton computed tomography readout testing and detector design
- Ola Grøttvik - MSc - 2017 - Design of High-Speed Digital Readout System for Use in Proton Computed Tomography
- Håkon Schaug - MSc - 2017 - Proton Beam Test Of A High Granularity Calorimeter For Proton Computed Tomography
- Even Hansen - MSc - 2017 - Charge Diffusion Modelling for a Monolithic Active Pixel Sensor Detector with Application to Proton CT
- Helge Pettersen - PhD - 2018 - A Digital Tracking Calorimeter for Proton Computed Tomography
- Simon Kristian Huiberts - MSc - 2018 - Characterization of the ALPIDE chip using He ions (Data from Australian Micro beam, cluster size characteristics).
- Viljar Nilsen Ekeland - MSc - 2018 - Characterization of the ALPIDE chip using protons (Data from Oslo beam test, cluster size and LET correlation with different bias voltages).
- Susmita Afroz - MSc - 2018 - Noise and Cluster Size Studies of ALPIDE-CMOS Pixel Sensor for pCT
- Håkon Andreas Underdal - MSc (HVL) - 2019 - Data Acquisition and Testing Software for a Proton Computed Tomography System
- Silje Grimstad - MSc (HVL) - 2019 - ALPIDE Cluster simulations (Building database of cluster characteristics, simulation of clusters using said database. Position and cluster separation algorithms).
- Alba Garcia Santos - MSc (Utrecht) - 2019 - Improvements of track reconstruction algorithms in pixel-based pCT calorimeters
- Aleksei Kuleshov - MSc - 2019 - Proton CT monitoring and ALPIDE control (MQTT protocol server, System workflow, GUI implementation).
- Øistein Jelmert Skjolddal - MSc (HVL) - 2020 Scalable Readout for Proton CT - pRU parser and Root interface.
- Jarle Rambo Sølie - PhD (HVL/UiB) - 2020 A Monte Carlo simulation framework for performance evaluation of a proton imaging system without front trackers.
Journal Articles
- Alme, J., Barnaföldi, G.G., Barthel, R., Borshchov, V., Bodova, T., van den Brink, A., et al. A High-Granularity Digital Tracking Calorimeter Optimized for Proton CT. Frontiers in Physics. 2020;8(460).
- Published manuscript: PDF
- Frontiers link: doi:10.3389/fphy.2020.568243
- Pettersen, H.E.S., Volz, L., Sølie, J. R., Alme, J., Barnaföldi, G.G., Barthel, R. et al. Helium Radiography with a Digital Tracking Calorimeter-a Monte Carlo Study for Secondary Track Rejection. Phys. Med. Biol. 2021;66(3):035004.
- Published manuscript: PDF
- IOP Science link: doi:10.1088/1361-6560/abca03
- Sølie, J.R., Volz, L., Pettersen H.E.S., Piersimoni, P., Odland, O.H., Röhrich, D., et al. Image quality of list-mode proton imaging without front trackers. Phys. Med. Biol. 2020;65(13):135012.
- Published manuscript: PDF
- IOP Science link: doi:10.1088/1361-6560/ab8ddb
- Tambave, G., Alme, J., Barnaföldi, G.G., Barthel, R., Van Den Brink, A., Brons, S., et al. Characterization of monolithic CMOS pixel sensor chip with ion beams for application in particle computed tomography. Nuclear Instruments and Methods in Physics Research Section A 2020;958:162626.
- Published manuscript: PDF
- Elsevier link: doi:10.1016/j.nima.2019.162626
- Pettersen, H.E.S., J. Alme, A. van den Brink, M. Chaar, D. Fehlker, I. Meric, O.H. Odland, et al. Proton Tracking in a High-Granularity Digital Tracking Calorimeter for Proton CT Purposes. Nuclear Instruments and Methods in Physics Research A 860C, 51–61. doi:10.1016/j.nima.2017.02.007.
- Published manuscript: PDF
- Elsevier link: doi:10.1016/j.nima.2017.02.007
- arXiv link: arXiv:1611.02031
- Pettersen, H.E.S., Chaar, M., Meric, I., Odland, O.H., Sølie, J., Röhrich, D. Accuracy of parameterized proton range models; a comparison. Radiation Physics and Chemistry, 144 (C): 295-297 (2018). doi:10.1016/j.radphyschem.2017.08.02
- Published manuscript: PDF
- Elsevier link: 10.1016/j.radphyschem.2017.08.028
- arXiv link: arXiv:1704.08854
- Pettersen, H. E. S., and D. Röhrich. 2017. Kreftbehandling Med Protonterapi Og Proton CT. Fra Fysikkens Verden, December 2017.
- Published article: PDF
- Magazine at norskfysisk.no
In review
- Pettersen, H.E.S., Meric, I., Odland, O.H., Shafiee, H., Sølie, J., Röhrich, D. Proton Tracking Algorithm for Pixel Based Range Telescopes for Proton Computed Tomography. Revision submitted to Web of Conferences after the "Connecting the Dots" conference.
- Revised manuscript: PDF
- Pettersen, Helge Egil Seime, Lennart Volz, Jarle Sølie, Dieter Rohrich, and Joao Seco. A Linear Projection Model to Estimate a Proton’s Position in a Pencil Beam For Single Sided Proton Imaging,. Submitted to Physics in Medicine and Biology.
- Submitted manuscript: PDF
- Pettersen, Helge Egil Seime, Johan Alme, Gergely Gabor Barnafoldi, Alba Garcıa-Santos, Ola Grøttvik, Håvard Helstrup, Kristin Fanebust Hetland, Ilker Meric, Odd Harald Odland, Gabor Papp, Thomas Peitzmann, Dieter Röhrich, Joao Seco, Hesam Shafiee, Eivind Vågslid Skjæveland, Ganesh Tambave, Kjetil Ullaland, Monika Varga-Kofarago, Lennart Volz, Boris Wagner and Shiming Yang. Design Optimization of a Pixel Based Range Telescope for Proton Computed Tomography. Submitted to Physica Medica Special Issue: Advances in Geant4 for medicine.
- Submitted manuscript: PDF
Work in Progress
- J. Sølie, H. E. S. Pettersen, I. Meric, O. H. Odland, H. Helstrup and D. Röhrich: A comparison of longitudinal and lateral range for protons traversing complex media using GATE, MCNP6 and FLUKA Monte Carlo simulations.
Meetings
Notes and slides from the project meetings
Workshops
Slides from the project workshops
Workpackages
Sections for the different work packages
People
Contact info of involved people
Links
Link collection of topics regarding the project
Getting started
- Note: ASK is a placeholder that marks questions
- Note: Search function is not ideal. It doesn't find all occurences of the search term, e.g. aries finds libraries but not aries.bccs
- Consult the User's Guide for information on using the wiki software.
- Configuration settings list
- MediaWiki FAQ
- MediaWiki release mailing list