Angela Torrance scite author profile

Angela Torrance

3Publications

43Citation Statements Received

9Citation Statements Given

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Goulburn Valley Health, University of Melbourne

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Quantitative coherent diffractive imaging of an integrated circuit at a spatial resolution of 20 nm

Abbey

Williams

Pfeifer

et al. 2008

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The complex transmission function of an integrated circuit is reconstructed at 20 nm spatial resolution using coherent diffractive imaging. A quantitative map is made of the exit surface wave emerging from void defects within the circuit interconnect. Assuming a known index of refraction for the substrate allows the volume of these voids to be estimated from the phase retardation in this region. Sample scanning and tomography of extended objects using coherent diffractive imaging is demonstrated.

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Evaluation of planned dosimetry when beam energies are substituted for a fraction of the treatment course

Hawke

Torrance

Tremethick

2013

Int J Cancer Ther Oncol

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Purpose: The purpose of this technical study was to evaluate how the effect of changing beam energies for one to multiple fractions of a patient's plan affected the overall dose delivered to the planning target volume (PTV) and surrounding organs at risk (OAR's). Method: In this study, twenty-eight patient plans from treatment sites including the oesophagus, prostate, lung, spine, rectum, bladder, chest, scapula, and breast were evaluated in the Philips Pinnacle treatment planning system (TPS), of these 14 were originally planned with 15MV and 14 with 10MV. Each of these plans were substituted with a single to multiple fractions with 10MV and 15MV respectively while keeping the original monitor units the same. Results: It was determined that when the number of fractions of the substituted beam energy remained at one fifth or less of the overall fractions a change of dose of less than 2% to the PTV could be maintained. The OAR's dose, when the plan had 20% of its fractions substituted with a different energy, were found to change by on average up to 3.5% and 2.3% for original plan energies of 15MV and 10MV respectively. The dose change calculated in the TPS was then verified using ion chamber measurements for bladder and oesophagus treatment plans. Conclusion: Results appear to indicate that the site of treatment was not an important factor when changing energy but the overall number of fractions versus the number of fractions substituted with an alternative energy was fundamental. These results may be clinically useful when a radiotherapy department have machines with different photon energies. In the event of a break down, when a patient needs to be urgently treated, it may be possible to treat them on another machine with a different energy, without an immediate recalculation in the TPS. This decision would depend upon the percentage of fractions of their overall treatment needing to be treated before the machine was repaired.

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Using coherent X-ray ptychography to probe medium-range order

Torrance¹,

Abbey²,

Putkunz³

et al. 2013

Opt. Express

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Angela Torrance

Quantitative coherent diffractive imaging of an integrated circuit at a spatial resolution of 20 nm

Evaluation of planned dosimetry when beam energies are substituted for a fraction of the treatment course

Using coherent X-ray ptychography to probe medium-range order

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