- odd.odland@uib.no
- Visitor address
-
Allégaten 55
5007 Bergen - Postal address
-
P.O. Box 7803NO-5020 BergenNorway
Publications
Academic article
- Kristian Ytre-Hauge; Arild Velure; Camilla Hanquist Stokkevåg et al. (2019). First application of a novel SRAM-based neutron detector for proton therapy. (external link)
- Helge Egil Seime Pettersen; Mamdouh Chaar; Ilker Meric et al. (2018). Accuracy of parameterized proton range models; a comparison. (external link)
- N. Ritjoho; P. Phumara; Y. Buanill et al. (2025). Development of the trigger-controlling system for the proton computed tomography prototype. (external link)
- Kirsten Nygaard; Odd Harald Odland; Ludvig Paul Muren (2006). Relative electron dosimetry using the Scanditronix-Wellhofer beam imaging system-2G. (external link)
- Helge Egil Seime Pettersen; Johan Alme; Gergely Gábor Barnaföldi et al. (2019). Design optimization of a pixel-based range telescope for proton computed tomography. (external link)
- Jarle Rambo Sølie; Lennart Volz; Helge Egil Seime Pettersen et al. (2020). Image quality of list-mode proton imaging without front trackers. (external link)
- Ganesh Jagannath Tambave; Johan Alme; Gergely Gábor Barnaföldi et al. (2019). Characterization of monolithic CMOS pixel sensor chip with ion beams for application in particle computed tomography. (external link)
- Helge Egil Seime Pettersen; Johan Alme; Aleksandra K. Biegun et al. (2017). Proton tracking in a high-granularity Digital Tracking Calorimeter for proton CT purposes. (external link)
- Alexander Schilling; Max Aehle; Johan Alme et al. (2023). Uncertainty-aware spot rejection rate as quality metric for proton therapy using a digital tracking calorimeter. (external link)
- Max Aehle; Johan Alme; Gergely Gábor Barnaföldi et al. (2023). Exploration of differentiability in a proton computed tomography simulation framework. (external link)
- Helge Egil Seime Pettersen; Max Aehle; Johan Alme et al. (2021). Investigating particle track topology for range telescopes in particle radiography using convolutional neural networks. (external link)
- Johan Alme; Gergely Gábor Barnaföldi; Rene Barthel et al. (2020). A high-granularity digital tracking calorimeter optimized for proton CT. (external link)
- Camilla Stokkevåg; Grete May Engeseth; Kristian Ytre-Hauge et al. (2014). Estimated risk of radiation-induced cancer following paediatric cranio-spinal irradiation with electron, photon and proton therapy. (external link)
- Tobias Kortus; Ralf Keidel; Nicolas R. Gauger et al. (2023). Towards Neural Charged Particle Tracking in Digital Tracking Calorimeters With Reinforcement Learning. (external link)
- D.V. Aleksandrov; S.F. Burachas; M.S. Ippolitov et al. (2005). A high resolution electromagnetic calorimeter based on lead-tungstate crystals. (external link)
- Kristian Ytre-Hauge; Arild Velure; Eivind Farestveit Larsen et al. (2015). Design and characterization of an SRAM-based neutron detector for particle therapy. (external link)
- Helge Egil Seime Pettersen; Lennart Volz; Jarle Rambo Sølie et al. (2021). Helium radiography with a digital tracking calorimeter—a Monte Carlo study for secondary track rejection. (external link)
- Alexander Schilling; Max Aehle; Johan Alme et al. (2025). Modeling charge collection in silicon pixel detectors for proton therapy applications. (external link)
- Kirsten Nygaard; Odd Harald Odland; Yngve Kvinnsland et al. (2005). Measurements and treatment planning calculations of electron dose distributions below bolus edges. (external link)
- M. Aehle; Johan Alme; G.G. Barnaföldi et al. (2025). Reconstruction of proton relative stopping power with a granular calorimeter detector model. (external link)
Doctoral thesis (PhD)
- Odd Harald Odland (2000). A study of the performance of the photon spectrometer PHOS in the ALICE experiment at the large hadron collider. (external link)
- Kristian Smeland Ytre-Hauge; Dieter Röhrick; Odd Harald Odland (2013). Measurments and Monte Carlo Simulations of Neutron Doses from Radiation Therapy whit Photons, Protons and Carbon Ions. (external link)