Monte Carlo study of photon fields from a flattening filter-free clinical accelerator. - Wikidata - wikimedia - TriplyDB

Monte Carlo study of photon fields from a flattening filter-free clinical accelerator.

Monte Carlo study of photon fields from a flattening filter-free clinical accelerator.

http://www.wikidata.org/entity/Q51203681

about

A comparison between direct TMR measurements and TMRs calculated from PDDs using BJR Supplement 25 data for flattened and unflattened photon beams.Beam Characterization of 10-MV Photon Beam from Medical Linear Accelerator without Flattening Filter.Dosimetric comparison of Acuros XB deterministic radiation transport method with Monte Carlo and model-based convolution methods in heterogeneous media.Multisource modeling of flattening filter free (FFF) beam and the optimization of model parameters.Feasibility Study on Applying Radiophotoluminescent Glass Dosimeters for CyberKnife SRS Dose Verification Investigation of various energy deposition kernel refinements for the convolution∕superposition method.Structural Shielding Design of a 6 MV Flattening Filter Free Linear Accelerator: Indian Scenario.Current status and future perspective of flattening filter free photon beams.Acceptance criteria for flattening filter-free photon beam from standard medical electron linear accelerator: AERB task group recommendations.Impact of flattening-filter-free radiation on the clonogenic survival of astrocytic cell lines.Dosimetric properties of equivalent-quality flattening filter-free (FFF) and flattened photon beams of Versa HD linear accelerator.Flattening filter-free accelerators: a report from the AAPM Therapy Emerging Technology Assessment Work Group.Technical Note: On the impact of the incident electron beam energy on the primary dose component of flattening filter free photon beams.Pinnacle3 modeling and end-to-end dosimetric testing of a Versa HD linear accelerator with the Agility head and flattening filter-free modes.Technical Report: Evaluation of peripheral dose for flattening filter free photon beams.A surface energy spectral study on the bone heterogeneity and beam obliquity using the flattened and unflattened photon beams.Unflattened photon beams from the standard flattening filter free accelerators for radiotherapy: Advantages, limitations and challenges Stereotactic body radiation therapy for liver tumours using flattening filter free beam: dosimetric and technical considerations.Commissioning and verification of the collapsed cone convolution superposition algorithm for SBRT delivery using flattening filter-free beams.Dosimetric differences in flattened and flattening filter-free beam treatment plans.Validation of a virtual source model for Monte Carlo dose calculations of a flattening filter free linac.Relationship between %dd(10)x and stopping-power ratios for flattening filter free accelerators: a Monte Carlo study.Dosimetric properties of a beam quality-matched 6 MV unflattened photon beam.Energy spectra, sources, and shielding considerations for neutrons generated by a flattening filter-free Clinac.Measurements of in-air output ratios for a linear accelerator with and without the flattening filter.Monte Carlo study of backscatter in a flattening filter free clinical accelerator.Commissioning and validation of BrainLAB cones for 6X FFF and 10X FFF beams on a Varian TrueBeam STx.Revisiting fetal dose during radiation therapy: evaluating treatment techniques and a custom shield.Monte Carlo study of in-field and out-of-field dose distributions from a linear accelerator operating with and without a flattening-filter.IMRT and RapidArc commissioning of a TrueBeam linear accelerator using TG-119 protocol cases.Can volumetric modulated arc therapy with flattening filter free beams play a role in stereotactic body radiotherapy for liver lesions? A volume-based analysis.Equivalent-quality unflattened photon beam modeling, planning, and delivery.Stereotactic radiotherapy for lung cancer using a flattening filter free Clinac.Comparison of Measured and Monte Carlo Calculated Dose Distributions from Indigenously Developed 6 MV Flattening Filter Free Medical Linear Accelerator Properties of unflattened photon beams shaped by a multileaf collimator

P2860

Q30977593-72C35DB6-8B81-4014-83E8-604FEE18C6E7 Q33868812-E83C43BC-4429-4E07-B91D-AC9ACF12E993 Q35023741-C66CAA9F-75EA-41F9-9544-BB09431D7472 Q35284585-7ABADB01-77E9-4A40-A7BB-CDFE24DCB5E7 Q36238383-2CCA208C-44DD-42D2-9D99-A975771F0A57 Q37377023-A655735C-309B-4115-9830-6141FB9697DB Q37726001-99EABACE-099C-4535-A32B-BEBDB13503F1 Q37869113-45C57EB6-34E8-4BF9-9643-4ED31935AFFA Q38393089-56D5EB58-366B-4A1A-BDFF-25932BEF420E Q38900782-78863AF9-D097-4AA4-8475-406BA545DFC2 Q38905798-CC6E15A6-2A25-4BCB-A6E2-6BDEAE26411B Q38992461-A3F41A73-59B0-4FF9-9083-461DACA0B051 Q39528604-4445BE48-A933-4380-840D-9E5F697AC757 Q39984703-0ED3D505-69F8-4D65-AB1B-1DEC0A3C7ECB Q41950149-7AF84BED-95F6-447F-AB52-DA8F56D4A04C Q41971851-FD01B435-7C0B-4C1A-86F0-F6ED66B0F501 Q42176227-AC91A14E-50D9-42C7-B9FE-D4450386EB20 Q42608693-3F712225-7C6E-4DCD-8A15-6FE0A332654F Q42653274-15B821BE-D5DA-4C15-947A-E17D97D5E554 Q42780109-46F5F3BA-C09B-4D61-8E0D-A76EC6588782 Q45358561-3700B27F-558B-4D07-A583-602E7F344A34 Q45896043-338478C8-4C49-425E-B1CE-2A51FEAAAF39 Q47414543-3E8F6E6D-00C1-4068-9655-703C8951D261 Q47629403-C2BD81F3-C0B3-481E-B147-82912F35E4C9 Q51107843-7DCB298B-96C3-4964-B4CC-65249C1E85D5 Q51123949-A6FC7A6C-94B8-4568-8FC5-810BB32B3C62 Q51139820-25D0BE1A-66EB-4726-AB7F-C6AC035D7841 Q51150684-2D1B8F1B-FF41-4E01-885D-43345D007EC4 Q51332926-CE1ECFB1-A273-4820-9A2B-4A5978829473 Q53450727-C5AE57C6-F0A8-424D-9A5A-BB9CF349CAA8 Q53666997-F0CE497D-7810-4BB5-95C2-E6550DF3CCCF Q53796949-4509778F-318F-48A9-942E-2D08109A3BB3 Q54959548-FFA5E0AD-0F5A-4F3A-9F49-3DB8A9675999 Q57301183-1B4FA04F-6B82-4456-BAB9-A9140326C929 Q57611581-568A4C35-6A2F-409F-B5BF-B54ABE88C547

P2860

Monte Carlo study of photon fields from a flattening filter-free clinical accelerator.

http://www.wikidata.org/entity/Q51203681

description

2006 nî lūn-bûn

@nan

2006年の論文

@ja

2006年学术文章

@wuu

2006年学术文章

@zh

2006年学术文章

@zh-cn

2006年学术文章

@zh-hans

2006年学术文章

@zh-my

2006年学术文章

@zh-sg

2006年學術文章

@yue

2006年學術文章

@zh-hant

name

Monte Carlo study of photon fields from a flattening filter-free clinical accelerator.

@en

Monte Carlo study of photon fields from a flattening filter-free clinical accelerator.

@nl

type

label

Monte Carlo study of photon fields from a flattening filter-free clinical accelerator.

@en

Monte Carlo study of photon fields from a flattening filter-free clinical accelerator.

@nl

prefLabel

Monte Carlo study of photon fields from a flattening filter-free clinical accelerator.

@en

Monte Carlo study of photon fields from a flattening filter-free clinical accelerator.

@nl

P1433

Q51203681-90BF9E5F-410B-449B-9F99-9C6637B8BC89

P1476

Q51203681-C2EA70F2-396C-4A4C-8A87-43DFD0C3BEAC

P2093

Q51203681-1DE6645C-CB38-4F06-AAF8-D252FD59F685

Q51203681-2B08CA3F-9812-4433-ABA3-0029DBAEF7F4

Q51203681-426F77AD-1C43-4DD6-87DD-1771555B9A46

Q51203681-89768FF5-F955-4E57-9773-B507687AF167

P2860

Q51203681-204940D0-E032-4F3C-9BE1-ABB894B529EB

Q51203681-21C945D7-C940-454E-BDAA-2F9F3D5A7949

Q51203681-247F8D5A-80E9-4322-9039-744FCA2703A3

Q51203681-25755895-F17F-49D1-90B8-6D23C9D4AF09

Q51203681-2876C606-3110-40A9-B473-A4F7DB46FD4F

Q51203681-5C72285A-F25C-403A-8DB5-DB4EA7DFAB14

Q51203681-7A6A698F-BADF-4A0A-B129-6A5803DA01A7

Q51203681-840E50F3-F986-47C7-AAA8-AAE03EF48FCB

Q51203681-8BBE83AD-7C0B-42F8-BB56-1CCBE960D24A

Q51203681-95FFFE47-DC7C-4632-B59E-E7321F0442EC

P304

Q51203681-AE55F7CF-FF56-4ADF-B94C-EE194E24023B

P31

Q51203681-4002E7B4-5DD3-4D93-9F8A-A18E78A79E28

P356

Q51203681-B37B5AB5-7ECF-4A45-A0A6-EA595AC1D3B4

P407

Q51203681-60DB2EB4-FB4E-44BA-A18A-E613E9FEAED5

P433

Q51203681-C79FF5AC-F58D-4C8D-8C40-CA9392D62372

P478

Q51203681-105B98E1-C8BB-4652-BC6B-8B3743FC2A5C

P50

Q51203681-9A313480-AC3F-4B52-BE46-C5F52408C7D6

Q51203681-EA15D04F-2ACE-4EE7-85FE-A6EE2D37C6B8

P577

Q51203681-FF2347A0-45C9-4C21-A48F-75946CE82CD6

P5875

Q51203681-827DEA7A-3E74-4096-A14D-B0A1E669F841

P698

Q51203681-E76E910D-5103-4A25-A92F-02B7EE4DEB35

P356

P1433

Medical Physics

P1476

Monte Carlo study of photon fields from a flattening filter-free clinical accelerator.

@en

P2093

Falk Pönisch

http://www.w3.org/2001/XMLSchema#string

Michael T Gillin

http://www.w3.org/2001/XMLSchema#string

Oleg N Vassiliev

http://www.w3.org/2001/XMLSchema#string

Uwe Titt

http://www.w3.org/2001/XMLSchema#string

P2860

Determining the incident electron fluence for Monte Carlo-based photon treatment planning using a standard measured data set.

Reference photon dosimetry data and reference phase space data for the 6 MV photon beam from varian clinac 2100 series linear accelerators.

Intensity modulated radiation therapy: a clinical review.

Energy spectra, angular spread, fluence profiles and dose distributions of 6 and 18 MV photon beams: results of monte carlo simulations for a varian 2100EX accelerator.

Using Monte Carlo simulations to commission photon beam output factors--a feasibility study.

Impact of prolonged fraction delivery times on tumor control: a note of caution for intensity-modulated radiation therapy (IMRT).

Out-of-field photon and neutron dose equivalents from step-and-shoot intensity-modulated radiation therapy.

Validation of Monte Carlo calculated surface doses for megavoltage photon beams.

Delivery time comparison for intensity-modulated radiation therapy with/without flattening filter: a planning study.

Radiation characteristics of helical tomotherapy.

P304

820-827

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1118/1.2174720

http://www.w3.org/2001/XMLSchema#string

P407

P433

4

http://www.w3.org/2001/XMLSchema#string

P478

33

http://www.w3.org/2001/XMLSchema#string

P50

P577

2006-04-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

7085877

http://www.w3.org/2001/XMLSchema#string

P698

16696457

http://www.w3.org/2001/XMLSchema#string