ionization chamber cc13 Search Results


ionization chamber cc13 (0.13 cc)  (IBA Dosimetry)
90
IBA Dosimetry ionization chamber cc13 (0.13 cc)
Ionization Chamber Cc13 (0.13 Cc), supplied by IBA Dosimetry, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/ionization chamber cc13 (0.13 cc)/product/IBA Dosimetry
Average 90 stars, based on 1 article reviews
ionization chamber cc13 (0.13 cc) - by Bioz Stars, 2026-02
90/100 stars
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ionization chambers cc04 and cc13  (Elekta)
90
Elekta ionization chambers cc04 and cc13
Convolution kernel shaping parameters for ionization chambers obtained relative to the Edge detector for cross-plane and in-plane measurements. Data were collected on an Elekta Synergy at nominal energy 6 MV and field size 10×10 cm 2 . Averaged shaping parameters are from all shaping parameters obtained for all measurement depths in the range 0.8–25 cm and all SSDs in the range 90–110 cm. The maximum and minimum observed shaping parameters are also presented.
Ionization Chambers Cc04 And Cc13, supplied by Elekta, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/ionization chambers cc04 and cc13/product/Elekta
Average 90 stars, based on 1 article reviews
ionization chambers cc04 and cc13 - by Bioz Stars, 2026-02
90/100 stars
  Buy from Supplier
cc04 chamber inside the pmma insert of sunnuclear’s arccheck devices  (Sun Nuclear Corporation)
90
Sun Nuclear Corporation cc04 chamber inside the pmma insert of sunnuclear’s arccheck devices
Convolution kernel shaping parameters for ionization chambers obtained relative to the Edge detector for cross-plane and in-plane measurements. Data were collected on an Elekta Synergy at nominal energy 6 MV and field size 10×10 cm 2 . Averaged shaping parameters are from all shaping parameters obtained for all measurement depths in the range 0.8–25 cm and all SSDs in the range 90–110 cm. The maximum and minimum observed shaping parameters are also presented.
Cc04 Chamber Inside The Pmma Insert Of Sunnuclear’s Arccheck Devices, supplied by Sun Nuclear Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/cc04 chamber inside the pmma insert of sunnuclear’s arccheck devices/product/Sun Nuclear Corporation
Average 90 stars, based on 1 article reviews
cc04 chamber inside the pmma insert of sunnuclear’s arccheck devices - by Bioz Stars, 2026-02
90/100 stars
  Buy from Supplier
cc13 ionization chambers  (Accuray Radiotherapy)
90
Accuray Radiotherapy cc13 ionization chambers
Convolution kernel shaping parameters for ionization chambers obtained relative to the Edge detector for cross-plane and in-plane measurements. Data were collected on an Elekta Synergy at nominal energy 6 MV and field size 10×10 cm 2 . Averaged shaping parameters are from all shaping parameters obtained for all measurement depths in the range 0.8–25 cm and all SSDs in the range 90–110 cm. The maximum and minimum observed shaping parameters are also presented.
Cc13 Ionization Chambers, supplied by Accuray Radiotherapy, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/cc13 ionization chambers/product/Accuray Radiotherapy
Average 90 stars, based on 1 article reviews
cc13 ionization chambers - by Bioz Stars, 2026-02
90/100 stars
  Buy from Supplier

Image Search Results


Convolution kernel shaping parameters for ionization chambers obtained relative to the Edge detector for cross-plane and in-plane measurements. Data were collected on an Elekta Synergy at nominal energy 6 MV and field size 10×10 cm 2 . Averaged shaping parameters are from all shaping parameters obtained for all measurement depths in the range 0.8–25 cm and all SSDs in the range 90–110 cm. The maximum and minimum observed shaping parameters are also presented.

Journal: Medical Physics

Article Title: Assessment of the setup dependence of detector response functions for mega-voltage linear accelerators

doi: 10.1118/1.3284529

Figure Lengend Snippet: Convolution kernel shaping parameters for ionization chambers obtained relative to the Edge detector for cross-plane and in-plane measurements. Data were collected on an Elekta Synergy at nominal energy 6 MV and field size 10×10 cm 2 . Averaged shaping parameters are from all shaping parameters obtained for all measurement depths in the range 0.8–25 cm and all SSDs in the range 90–110 cm. The maximum and minimum observed shaping parameters are also presented.

Article Snippet: 5 , 6 are shown in Fig. for CC04 and CC13 ionization chambers for 10×10 and 4×4 cm 2 fields, respectively, for the Elekta Synergy at 6 MV.

Techniques:

Kernels obtained for a CC04 ionization chamber relative to the Edge detector (a) at 95 cm SSD for an Elekta Synergy and nominal energy 6 MV. The detector point of measurement varied from 0.8 to 25 cm. (b) shows a selection of calculated kernels, averaged over the measurement depth range of 0.8–25 cm, obtained for a CC13 ionization chamber, relative to the Edge detector, at 90 cm SSD. The field size and energy are given. The accelerator make to which the data are associated are listed as Elekta Synergy (E), Varian Trilogy (V), and Siemens Oncor (S).

Journal: Medical Physics

Article Title: Assessment of the setup dependence of detector response functions for mega-voltage linear accelerators

doi: 10.1118/1.3284529

Figure Lengend Snippet: Kernels obtained for a CC04 ionization chamber relative to the Edge detector (a) at 95 cm SSD for an Elekta Synergy and nominal energy 6 MV. The detector point of measurement varied from 0.8 to 25 cm. (b) shows a selection of calculated kernels, averaged over the measurement depth range of 0.8–25 cm, obtained for a CC13 ionization chamber, relative to the Edge detector, at 90 cm SSD. The field size and energy are given. The accelerator make to which the data are associated are listed as Elekta Synergy (E), Varian Trilogy (V), and Siemens Oncor (S).

Article Snippet: 5 , 6 are shown in Fig. for CC04 and CC13 ionization chambers for 10×10 and 4×4 cm 2 fields, respectively, for the Elekta Synergy at 6 MV.

Techniques: Selection

(a) Measured CC04 (circle) cross-plane ionization chamber data obtained for an Elekta Synergy at 95 cm SSD and 10 cm depth for a 10×10 cm2 field and 6 MV beam. Corresponding deconvolved CC04 (square) and Edge (line) cross-plane profiles are shown. (b) shows a measured CC13 (circle) ionization chamber cross-plane profile obtained for an Elekta Synergy at 90 cm SSD and 15 cm depth for a 4×4 cm2 field and 6 MV beam. The deconvolved CC13 (square) profile and measured Edge (line) cross-plane profile are shown.

Journal: Medical Physics

Article Title: Assessment of the setup dependence of detector response functions for mega-voltage linear accelerators

doi: 10.1118/1.3284529

Figure Lengend Snippet: (a) Measured CC04 (circle) cross-plane ionization chamber data obtained for an Elekta Synergy at 95 cm SSD and 10 cm depth for a 10×10 cm2 field and 6 MV beam. Corresponding deconvolved CC04 (square) and Edge (line) cross-plane profiles are shown. (b) shows a measured CC13 (circle) ionization chamber cross-plane profile obtained for an Elekta Synergy at 90 cm SSD and 15 cm depth for a 4×4 cm2 field and 6 MV beam. The deconvolved CC13 (square) profile and measured Edge (line) cross-plane profile are shown.

Article Snippet: 5 , 6 are shown in Fig. for CC04 and CC13 ionization chambers for 10×10 and 4×4 cm 2 fields, respectively, for the Elekta Synergy at 6 MV.

Techniques: