about
Medical physics aspects of the synchrotron radiation therapies: Microbeam radiation therapy (MRT) and synchrotron stereotactic radiotherapy (SSRT)Beam perturbation characteristics of a 2D transmission silicon diode array, Magic Plate.Initial experiments with gel-water: towards MRI-linac dosimetry and imaging.Initial testing of a pixelated silicon detector prototype in proton therapy.Absorbed dose-to-water protocol applied to synchrotron-generated x-rays at very high dose rates.High-resolution fiber-optic dosimeters for microbeam radiation therapy.A 2D silicon detector array for quality assurance in small field dosimetry: DUO.The feasibility study and characterization of a two-dimensional diode array in "magic phantom" for high dose rate brachytherapy quality assurance.Angular independent silicon detector for dosimetry in external beam radiotherapy.X-ray microbeam measurements with a high resolution scintillator fibre-optic dosimeter.BrachyView: proof-of-principle of a novel in-body gamma camera for low dose-rate prostate brachytherapy.Online in vivo dosimetry in high dose rate prostate brchytherapy with MOSkin detectors: in phantom feasibility study.Influence of polarization and a source model for dose calculation in MRT.Semiconductor real-time quality assurance dosimetry in brachytherapy.Temporally separating Cherenkov radiation in a scintillator probe exposed to a pulsed X-ray beam.Microdosimetric measurements of a clinical proton beam with micrometer-sized solid-state detector.X-Tream quality assurance in synchrotron X-ray microbeam radiation therapy.Impact of a monolithic silicon detector operating in transmission mode on clinical photon beams.Characterization of proton pencil beam scanning and passive beam using a high spatial resolution solid-state microdosimeter.Development of a silicon diode detector for skin dosimetry in radiotherapy.Technical Note: Angular dependence of a 2D monolithic silicon diode array for small field dosimetry.BrachyView, a novel in-body imaging system for HDR prostate brachytherapy: Experimental evaluation.MagicPlate-512: A 2D silicon detector array for quality assurance of stereotactic motion adaptive radiotherapy.BrachyView, a novel inbody imaging system for HDR prostate brachytherapy: design and Monte Carlo feasibility study.Clinical application of MOSkin dosimeters to rectal wall in vivo dosimetry in gynecological HDR brachytherapy.BrachyView: Combining LDR seed positions with transrectal ultrasound imaging in a prostate gel phantom.Characterization of a novel two dimensional diode array the "magic plate" as a radiation detector for radiation therapy treatment.The relative biological effectiveness for carbon, nitrogen, and oxygen ion beams using passive and scanning techniques evaluated with fully 3D silicon microdosimeters.A novel high-resolution 2D silicon array detector for small field dosimetry with FFF photon beams.Dose verification of eye plaque brachytherapy using spectroscopic dosimetry.A two dimensional silicon detectors array for quality assurance in stereotactic radiotherapy: MagicPlate-512.Direct and pulsed current annealing of p-MOSFET based dosimeter: the "MOSkin".Real-time high spatial resolution dose verification in stereotactic motion adaptive arc radiotherapy."Characterization of ELEKTA SRS cone collimator using high spatial resolution monolithic silicon detector array".Characterization of a Novel Diamond-Based Microdosimeter Prototype for Radioprotection Applications in Space EnvironmentsThe use of a silicon strip detector dose magnifying glass in stereotactic radiotherapy QA and dosimetryA silicon strip detector dose magnifying glass for IMRT dosimetryFrom imaging to dosimetry: GEANT4-based study on the application of Medipix to neutron dosimetryNeutron Dosimeter Development Based on Medipix2Evaluation of Silicon Detectors With Integrated JFET for Biomedical Applications
P50
Q28082894-763237A9-A7E4-4956-AAB9-4E6DD47B09A4Q31076256-66897AD1-8294-4112-976B-A66630FEEEE6Q31141037-7C561CD8-BCD6-47CA-8A6D-D6E326421BECQ38674043-62BD7EFF-B7CD-486D-BFEE-08A39841D263Q38846386-8014E3C7-CA5F-47C2-B18A-DA4EE19202CEQ38907579-F4D78F06-03FF-42DE-9ACC-951E7378801FQ38984085-E91A6180-203D-4B9B-A8BE-84F288CBFFABQ39298668-D2395EF8-6E2D-4DFC-B570-C94A05FA7F6BQ40670452-7D86B111-CD8C-4C8F-9623-48ECC06481E5Q42115304-B8A9007E-C469-4506-A077-4225F4CC82E3Q44404801-3BF8BCD2-3724-49EA-89DF-B7A08579AADFQ44826156-90FA9DB6-446B-490F-A26D-FE0B3610FA8DQ45125581-BBAECFD5-965E-43A5-94F9-C17A293A150CQ47256195-E54130B9-F433-40BF-A7FD-20B089D5DF18Q47416473-85D75764-3EC1-4082-8BAE-99EB9EBC8DA4Q47677823-A53FD389-D4B8-4431-817B-F437D0093680Q47700035-E27F42C3-2398-415C-8189-310D1F17D51AQ47773269-7347B48A-9B11-4D72-B9FA-F5633040B977Q47893976-8C286ACA-BA26-49F1-8562-2665E5779472Q47976254-8FBF57CD-DA4F-4BCC-8DF3-615C1535627CQ48600439-7DFFDEDD-9559-4E48-8D11-8460E632D024Q48639492-254A2AC8-9B1D-47BE-8D6E-4B74AAC8C9A8Q48663214-8C2B1B77-E8F1-499D-9607-2C99466F3278Q48718576-FA093B78-1449-4B67-8714-6091E65BB6C3Q50651730-62F622CA-2D8B-422B-94A2-1688D421E441Q50934842-E11F1420-6C29-485F-A543-432BACF440A2Q50947216-641448BB-8FF2-4364-8B4D-E7B502C22E82Q52639152-4BA6FAD3-8B45-4877-8A5D-FFD003E07ABDQ52689350-44CE24DB-67CA-49F7-A468-422EC5D0E630Q53059023-CDF3B4B9-0125-4703-9C60-88C17D68C3F1Q53457071-085E2C78-C121-4776-9248-1D1F2A015BBCQ53594645-D685E18D-3E81-4AC9-B6DD-E9F4FFED638AQ55562672-2143F448-FEB9-4223-9AE7-9FD10AF5AF37Q55664878-4721AA99-EDE0-4E20-914B-FE8993EDE6C0Q57703834-6AB97396-8D6A-48B5-A4EB-5A5924252ECDQ57703870-4DCA5308-6B82-4C10-A160-40F57D858C04Q57703874-F907159C-003F-4C0E-8F2B-BC3AE2DBC35FQ57703876-D778163C-68D3-4FE0-A34A-705D362A0208Q57703880-4B4CD186-9CE5-4269-99A2-E68AAA784EECQ57703890-9476152F-710C-4B47-B2A9-AA01EF92C66D
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
M Petasecca
@ast
M Petasecca
@en
M Petasecca
@es
M Petasecca
@nl
M Petasecca
@sl
type
label
M Petasecca
@ast
M Petasecca
@en
M Petasecca
@es
M Petasecca
@nl
M Petasecca
@sl
prefLabel
M Petasecca
@ast
M Petasecca
@en
M Petasecca
@es
M Petasecca
@nl
M Petasecca
@sl
P106
P1153
8524324400
P31
P496
0000-0001-5958-7457