Your search keyword '"Monte Carlo modelling"' showing total 123 results

1. Dosimetry and Monte Carlo modelling of the Papillon+ contact X-ray brachytherapy device.

Author

Colson, Dries, Yalvac, Burak, Weterings, Jan, Verrijssen, An-Sofie, van Haaren, Paul, Bellezzo, Murillo, Berbée, Maaike, Van Limbergen, Evert J., Croce, Olivier, Verhaegen, Frank, and Reniers, Brigitte

Subjects

*X-ray spectra, *PLASTIC films, *SOFT X rays, *RECTAL cancer, *MEDICAL dosimetry

Abstract

This study aimed to develop and validate a Monte Carlo (MC) model for the Papillon+ contact x-ray brachytherapy (CXB) device, producing 50 kilovolt (kV) X-rays, specifically focusing on its application with a 25 mm diameter rectal applicator for contact therapy. The validation process involved depth dose and transverse dose profile measurements using EBT3 gafchromic films positioned in a plastic water low energy range phantom. The half-value layer (HVL) was further measured and derived from the simulated X-ray spectra. Excellent agreement within ±2% was achieved between the measured and simulated on-axis depth dose curves for the 25 mm rectal applicator. Transverse dose profile measurements showed a high level of agreement between the simulation and measurements, on average 3.1% in contact with the applicator at the surface of the phantom and on average 1.7% at 10 mm depth. A close agreement within 5.5% was noticed concerning the HVL between the measurement and simulation. The simulated gamma spectra and 2D-dose distribution demonstrated a soft X-ray energy spectrum and a uniform dose distribution in contact with the applicator. An MC model was successfully developed for the Papillon+ eBT device with a 25 mm diameter rectal applicator. The validated model, with its demonstrated accuracy in depth dose and transverse dose profile simulations, is a valuable tool for quality assurance and patient safety and, in a later phase, may be used for treatment planning, dose calculations and tissue inhomogeneity corrections. [ABSTRACT FROM AUTHOR]

Published

2024

2. Methods for dosimetric measurement and characterisation of laser-driven ion beams

Author

McCallum, Sean, Borghesi, Marco, and Kar, Satyabrata

Subjects

Radiation dosimetry, radiation detectors, ion acceleration, Monte Carlo modelling

Abstract

The work reported within this PhD thesis aims to address some of the technicalities surrounding dosimetry measurements of ultra-high pulse dose rate beams, in particular those generated through the mechanism of laser-driven acceleration. Early studies of irradiations performed with these beam modalities have indicated reductions in the normal tissue complication probability for similar levels of tumour control, highlighting the potential to offer marked improvements in such clinical applications. Novel strategies must be devised that are capable of performing accurate dosimetry measurements of these high-dose beams, especially given the harsh experimental environment created. A spectroscopic routine has been developed and reported that allows the characterisation of laser-driven proton beams through a deconvolution algorithm to derive the energy spectrum incident on a stack of radiochromic films. This tool has been tested through an experimental campaign carried out at Clatterbridge Cancer Centre, with an assessment of its accuracy performed through extensive Monte Carlo modelling. A novel strategy for dosimetry measurements of laser-driven proton beams has also been presented in this work. This is based on the use of a small portable graphite calorimeter developed at National Physical Laboratory, with the absorbed dose obtained through measurements of the radiation-induced temperature rise in the system. An experimental investigation was performed using the VULCAN PW laser system at Rutherford Appleton Laboratory, successfully demonstrating the proof of this principle in the first measurements of a calorimeter system to detect the absorbed dose of laser-driven beams. Through the methods developed for the characterisation and dosimetry of ultra-high dose rate laser-driven beams, suitable solutions are presented for accurate measurement of such modalities, whilst overcoming the challenges typically associated with this particle acceleration regime, in addition to unusable conventional detectors. These steps may represent important ones in the translation of this novel accelerating regime to the applications proposed.

Published

2023

3. SEARCH FOR DECAY OF THE 7Be NUCLEUS IN 8B NUCLEUS DISSOCIATION.

Author

Stanoeva, Ralitsa, Kolev, Svetoslav, and Koutzarova, Tatyana

Subjects

*MONTE Carlo method, *PARTICLE tracks (Nuclear physics), *CCD cameras

Abstract

The fragmentation of light relativistic nuclei can be studied in detail by the technique of nuclear track emulsions. The registration of all charged particles and their identification enable one to explore the isotopic composition of fragments and the projectile fragmentation channels. In the present paper results of an analysis of decay of the 7Be nucleus in dissociation of 8B nuclei are presented and a comparative analysis of the experimental data with the Monte Carlo model calculations is made. The paper is illustrated with characteristic images, obtained by means of a microscope, equipped with a CCD camera. [ABSTRACT FROM AUTHOR]

Published

2024

4. On the Possibility of Using Medical Linear Electron Accelerators as a Source of the Reference Pulsed Photon Radiation Field

Author

A. A. Zaharadniuk, A. Y. Taraev, and S. V. Lazarenko

Subjects

monte carlo modelling, linear electron accelerator, pulsed photon radiation, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Sources of pulsed photon radiation are widely used in science and industry. In this regard, there is a growing demand for dosimetry instruments capable of operating in these pulsed photon radiation fields. Until now there is no comprehensive methodology that describes the characteristics of reference fields of pulsed photon radiation required for calibration and verification of dosimetry equipment. The aim of this paper was to study the possibility of using a medical linear electron accelerator as a generating source of a reference pulsed photon radiation field. The paper investigates main characteristics of photon radiation field (namely, spectrum and average energy) generated by CLINAC in two modes of operation: 6 MV and 18 MV. Additionally it researches the possibility of attenuation of the CLINAC photon radiation intensity by a lead filter. The spectrum and average energy of the CLINAC photon radiation were calculated by means of Monte Carlo simulation in the Fluka program. The validation of the calculation was determined by comparing the attenuation coefficients calculated by the model with ones obtained experimentally by using real CLINACs. Experimentally, the attenuation coefficients were obtained by measuring the air kerma rate generated by the photon radiation fields of Varian VitalBeam and Varian iX CLINACs at a given point of space. Based on the simulation results, the Ḣ*(10) ambient dose equivalent ratio generated by CLINACs were calculated. It was found that the lead filter effectively attenuates the CLINAC photon radiation in terms of both air kerma rate and ambient dose equivalent rate to levels suitable for calibration of dosimetry equipment designed to measure pulsed radiation. It is shown that the lead filter significantly affects both the photon spectrum of the CLINAC and its average energy.

Published

2023

5. Modelling the impact on the secondary electron yield of carbon layers of various thicknesses on copper substrate.

Author

Inguimbert, C., Gibaru, Q., Caron, P., Angelucci, M., Spallino, L., and Cimino, R.

Subjects

*SECONDARY electron emission, *ELECTRONS, *SURFACES (Technology), *CARBON

Abstract

This work presents comparisons between numerical simulations and secondary electron emission yield measurements. The impact on the secondary electron emission yield of a growing graphite layer deposited on copper substrates is analyzed. The numerical simulations confirm experimental observations showing that a very thin coating deposit, with a thickness of few nm, can affect significantly the emission yield of an irradiated material. Beyond 5 nm thickness, the surface material alone drives the secondary emission. [ABSTRACT FROM AUTHOR]

Published

2022

6. The behaviour of plastic particles during pyrolysis in bubbling fluidized bed reactors: Incipient agglomeration and axial segregation.

Author

Iannello, Stefano, Sebastiani, Alex, Errigo, Matteo, and Materazzi, Massimiliano

Subjects

*FLUIDIZED bed reactors, *DISSOLVED air flotation (Water purification), *X-ray imaging, *PYROLYSIS, *PLASTICS, *FEEDSTOCK, *SURFACE forces

Abstract

Plastic-fluidized bed interaction has been investigated by non-invasive X-ray imaging techniques in the temperature range of 500–650 °C and under pyrolysis conditions. Experiments were conducted by feeding a single polypropylene particle using either overbed or underbed feeding methods. The fluidized bed was operated from minimum fluidization conditions to bubbling regime, up to 2U mf. Interestingly, experimental observations show that the understanding of the mixing/segregation behaviour of polypropylene in a hot fluidized bed does not appear to be as straightforward as in the case of more conventional feedstocks, such as biomass. Further analysis and an alternative point of view to investigate the complex behaviour observed for plastic feedstock have been provided. The interaction between the fluidized bed and a single polypropylene particle was modelled by means of an axial segregation model, and a physics-assisted stochastic approach. In the second case, it was possible to simulate the formation of the sand-plastic agglomerate (incipient agglomeration stage) and the evolution of its density over time. The models were then validated by means of axial segregation data obtained via X-ray imaging techniques and by measuring the physical properties of real sand-polypropylene agglomerates produced within the bed operating at high temperatures. Results obtained in this study show that the unpredictable sinking-floating behaviour of the plastic particles is not related to the change in density associated to the formation of the sand-polypropylene agglomerates over time. [Display omitted] • The plastic-sand incipient agglomeration in a BFBR is investigated. • X-ray observations reveal the segregation behaviour of polypropylene particles. • Polypropylene particles settle at the bottom of the bed after under bed feeding. • A Monte Carlo-based agglomeration model is developed to predict agglomeration. • Surface tension forces may dominate over gravitational forces for molten plastics. [ABSTRACT FROM AUTHOR]

Published

2024

7. Microstructural evolution in austenitic stainless steels for extended-life power station applications

Author

Zhu, Feng

Subjects

620.1, Austenitic stainless steels, Microstructural evolution, Monte Carlo modelling, AGRs, Nuclear power life extension, High temperature degradation, Fracture mechanism, Type 316H, Type 321, d-ferrite

Abstract

In this work, the microstructure evolution of Type 316H and Type 321 austenitic stainless steel has been studied by experimental methods and modelling techniques. In the experimental work, the major precipitate evolution in ex-service and laboratory aged Type 316H and Type 321 steels have been identified using multi-characterisation techniques. The precipitation sequences for both materials have been studied within a wide variety of ageing conditions. Due to the very low carbon level in the matrix, it takes far less ageing time (< 100 hours) to form sigma (s) phase in Type 321 comparing to that in Type 316H. The Type 321 sample with low Si concentration did not form G phase. Unusually, a large amount of Martensite (up to 50 vol%) has been observed in the virgin Type 321 submitted to the accelerated ageing programme. The microstructure evolution of delta (d) ferrite at different ageing temperatures for austenitic stainless steel has also been studied. A Monte Carlo model has been developed to predict detailed microstructure evolution during long term ageing. The results of the quantitative precipitate evolution measurements of Type 316H and Type 321 have been used for the calibration of this microstructural evolution model. After proper validation, the microstructural evolution model was in good agreement with the experimental measurements. The effect of precipitation kinetics on the reduction of fracture toughness has been studied by examining the various fracture surfaces with different ageing conditions. A new approach for the long term fracture property prediction in austenitic stainless steels, based on the Monte Carlo microstructural modelling, has been proposed. This fracture prediction uses microstructure modelling predictions of inter-granular precipitation to forecast the life time fracture toughness degradation, which is also in good agreement with previous work. Ultimately, a method for predicting the microstructure, the mechanical properties of these Type 316H and Type 321 austenitic stainless steel and possibly other austenitic stainless steel, over the power plant life time, could be achieved from this work.

Published

2011

8. Measurements and Modelling of Aritificial Sky Brightness: Combining Remote Sensing from Satellites and Ground-Based Observations

Author

Zoltán Kolláth, Dénes Száz, and Kornél Kolláth

Subjects

light pollution, spectroscopy, sky radiance, monte carlo modelling, sky brightness map, Science

Abstract

In recent decades, considerable research has been carried out both in measuring and modelling the brightness of the sky. Modelling is highly complex, as the properties of light emission (spatial and spectral distribution) are generally unknown, and the physical state of the atmosphere cannot be determined independently. The existing radiation transfer models lack the focus on light pollution and model only a narrow spectral range or do not consider realistic atmospheric circumstances. In this paper, we introduce a new Monte Carlo simulation for modelling light pollution, including the optical density of the atmosphere and multiple photon scattering, then we attempt to combine the available information of satellite and ground-based measurements to check the extent to which it is possible to verify our model. It is demonstrated that we need all the separate pieces of information to interpret the observations adequately.

Published

2021

9. Impact of reflecting land surface on radiation environment over Hornsund, Spitsbergen – a model study for cloudless skies

Author

Rozwadowska Anna and Górecka Izabela

Subjects

Arctic, Svalbard, fjord, irradiance transmittance, aerosol radiative forcing, nadir radiance, Monte Carlo modelling, Geology, QE1-996.5

Abstract

This paper addresses the influence of land topography and cover on 3D radiative effects under cloudless skies in the Hornsund area, Spitsbergen, Svalbard. The authors used Monte Carlo simulations of solar radiation transfer over a heterogeneous surface to study the impact of a non-uniform surface on: (1) the spatial distribution of irradiance transmittance at the fjord surface under cloudless skies; (2) the spectral shortwave aerosol radiative forcing at the fjord surface; (3) normalized nadir radiance at the Top Of the Atmosphere (TOA) over the fjord. The modelled transmittances and radiances over the fjord are compared to the transmittances and radiances over the open ocean under the same conditions. The dependence of the 3D radiative effects on aerosol optical thickness, aerosol type, surface albedo distribution, solar azimuth and zenith angle and spectral channel is discussed. The analysis was done for channels 3 (459-479 nm) and 2 (841-876 nm) of the MODIS radiometer. In the simulations a flat water surface was assumed. The study shows that snow-covered land surrounding the fjord strongly modifies the radiation environment over the fjord surface. The enhancement of the mean irradiance transmittance over the fjord with respect to the open ocean is up to 0.06 for channel 3. The enhancement exceeds 0.11 in the vicinity of sunlit cliffs. The influence of the snow-covered land on the TOA radiance over the fjord in channel 3 is comparable to the impact of an increase in aerosol optical thickness of over 100%, and in lateral fjords of up to several hundred percent. The increase in TOA radiance is wavelength dependent. These effects may affect retrievals of aerosol optical thickness.

Published

2017

10. From Monte Carlo PET Simulations to Reconstructed Images : Modelling and Optimisation for 68Ga Theragnostics

Author

Kalaitzidis, Philip and Kalaitzidis, Philip

Abstract

In nuclear medicine, radiopharmaceuticals can be administered for both diagnostic and therapeutic purposes. In recent years, there has been an increasing interest in theragnostics, a strategy that combines both diagnosis and therapy. This can be achieved by using similar radiopharmaceuticals for imaging and radionuclide therapy, which enables highly personalised disease management. One theragnostic application is for the diagnosis and management of neuroendocrine tumours, where the diagnosis and subsequent therapy stratification often relies on a qualitative evaluation following [68Ga]Ga-DOTA-TOC PET imaging, with [177Lu]Lu-DOTA-TATE radionuclide therapy being a potential treatment option. In this case, peri-therapeutic SPECT imaging enables for the disease to be closely monitored during therapy. There is growing interest in utilising quantitative metrics to identify the most suitable candidates for radionuclide therapy and to subsequently perform individualised dosimetry. Consequently, it is important to understand potential limitations in the image acquisition process that will impact the accuracy and precision of quantitative estimates, and one effective method to do so is through Monte Carlo simulations.This thesis is based on four papers utilising Monte Carlo simulations, with a focus on modelling and optimising for 68Ga-PET theragnostics. Paper I explores the possibility of modelling and simulating a clinical GE Discovery MI PET system and coupling simulated data with a reconstruction software, entirely in silico, to enable further simulation-based studies. The implementation of correction factors emulates the processes used in clinical scanners for a more realistic approach. The model successfully generates results comparable to those obtained from a corresponding measurement on a clinical scanner. Papers II, III, and IV focus on 68Ga-PET imaging of neuroendocrine tumours, with Papers III and IV also incorporating 177Lu-SPECT imaging. Anthropomorphic phantoms

Published

2023

11. Integrated Disposal Facility FY2011 Glass Testing Summary Report

Author

Westsik, Joseph

Published

2011

12. Biophotonic Modelling of Cardiac Optical Imaging

Author

Bishop, Martin J., Plank, Gernot, Canepari, Marco, editor, Zecevic, Dejan, editor, and Bernus, Olivier, editor

Published

2015

13. Monte Carlo Methods in Nuclear Medicine

Author

Bardiès, Manuel, Lassmann, Michael, Brady, Luther W., Series editor, Lu, Jiade J., Series editor, Nieder, Carsten, Series editor, and Baum, Richard P., editor

Published

2014

14. Paediatric Effective and Organ Dose Conversion Factors for Dental Cone Beam Computed Tomography Using MCNP5

Author

Theodorakou, C., Walker, A., and Long, Mian, editor

Published

2013

15. Research on risk assessment of debris flow in a mining area in western China based on the game theory empowering normal cloud theory.

Author

LI LI, QIANG YUE, and LI SHAOHONG

Subjects

*RISK assessment, *GAME theory, *CLOUD droplets, *MONTE Carlo method, *STATISTICS

Abstract

Risk assessment of debris flow is an uncertain problem involving randomness and fuzziness. The cloud model is used to distinguish for assessing the risk of debris flow scientifically and rationally. Firstly, the system standard of debris flow risk assessment is constructed; secondly, impact factor of each assessment system which belonging to cloud droplet of each risk level produced by normal cloud generator, the subjective weights and objective weights of the debris flow influence factors are coupled by using game theory, and consider the fuzziness of debris flow basic data, using the Monte Carlo modelling thought, and by generating large cloud droplets and statistics of the average value in a mini zone near the basic data for evaluating debris flow as the basic data belonging to some hierarchical average degree of certainty; finally, the proposed model is used for case research, and compared to several existing mature methods to prove the proposed model is feasible and reasonable. [ABSTRACT FROM AUTHOR]

Published

2018

16. Nano-scale Monte Carlo study on liquid water distribution within the polymer electrolyte membrane fuel cell microporous layer, catalyst layer and their interfacial region.

Author

Pournemat, A., Markötter, H., Wilhelm, F., Enz, S., Kropf, H., Manke, I., and Scholta, J.

Subjects

*PROTON exchange membrane fuel cells, *POLYELECTROLYTES, *MONTE Carlo method, *WATER, *CURRENT density (Electromagnetism), *POROUS materials

Abstract

Liquid water saturation of pores in the gas diffusion layer (GDL) and the catalyst layer (CL) of polymer electrolyte membrane fuel cells (PEMFC) hinders the transport of the reactant gases, leading to inhomogeneous current density distribution, reduced overall cell performance, and accelerated material degradation. This effect restricts the PEMFC operation, specifically at high current densities. In this study, the simulation results illustrate how the interplay of wettability and pore sizes influences the water distribution within the CL, microporous layer (MPL) of the GDL, and specifically their interface. The liquid water distribution within the porous material is studied employing a voxel-based Monte Carlo (MC) model reflecting the effect of local thermodynamic boundary conditions and inner surface characteristics. Real material structures obtained with a focused ion beam - scanning electron microscope (FIB-SEM) are employed. Local temperature and relative humidity values required as inputs are obtained from sophisticated computational fluid dynamics (CFD) simulations comprising all relevant effects, including the electrochemical reactions. The results show that avoiding drastic changes in wettability at the CL-MPL interface can help to mitigate the possible detrimental water accumulations. Further developing and exploiting this study will contribute to facilitate the systematic material development for better PEMFC performance and durability. [ABSTRACT FROM AUTHOR]

Published

2018

17. Constraining Quaternary ice covers and erosion rates using cosmogenic 26Al/10Be nuclide concentrations.

Author

Knudsen, Mads Faurschou and Egholm, David Lundbek

Subjects

*QUATERNARY paleoclimatology, *GLACIAL Epoch, *QUATERNARY Period, *COSMOGENIC nuclides, *HOLOCENE Epoch

Abstract

Paired cosmogenic nuclides are often used to constrain the exposure/burial history of landforms repeatedly covered by ice during the Quaternary, including tors, high-elevation surfaces, and steep alpine summits in the circum-Arctic regions. The approach generally exploits the different production rates and half-lives of 10 Be and 26 Al to infer past exposure/burial histories. However, the two-stage minimum-limiting exposure and burial model regularly used to interpret the nuclides ignores the effect of variable erosion rates, which potentially may bias the interpretation. In this study, we use a Monte Carlo model approach to investigate systematically how the exposure/burial and erosion history, including variable erosion and the timing of erosion events, influence concentrations of 10 Be and 26 Al. The results show that low 26 Al/ 10 Be ratios are not uniquely associated with prolonged burial under ice, but may as well reflect ice covers that were limited to the coldest part of the late Pleistocene combined with recent exhumation of the sample, e.g. due to glacial plucking during the last glacial period. As an example, we simulate published 26 Al/ 10 Be data from Svalbard and show that it is possible that the steep alpine summits experienced ice-free conditions during large parts of the late Pleistocene and varying amounts of glacial erosion. This scenario, which contrasts with the original interpretation of more-or-less continuous burial under non-erosive ice over the last ∼1 Myr, thus challenge the conventional interpretation of such data. On the other hand, high 26 Al/ 10 Be ratios do not necessarily reflect limited burial under ice, which is the common interpretation of high ratios. In fact, high 26 Al/ 10 Be ratios may also reflect extensive burial under ice, combined with a change from burial under erosive ice, which brought the sample close to the surface, to burial under non-erosive ice at some point during the mid-Pleistocene. Importantly, by allowing for variable erosion rates, the model results may reconcile spatially varying 26 Al/ 10 Be data from bedrock surfaces preserved over multiple glacial cycles, suggesting that samples from the same high-elevation surface or neighbouring alpine summits may have experienced similar long-term burial under ice, but varying amounts of glacial erosion. [ABSTRACT FROM AUTHOR]

Published

2018

18. The Importance of Dosimetry and Radiobiology in Nuclear Medicine : Quantitative methods and modelling

Author

Stenvall, Anna

Subjects

PET, dosimetry, Monte Carlo modelling, SPECT, Nuclear medicine, radiobiology, radionuclide therapy, γH2AX, Natural Sciences, Other Natural Sciences not elsewhere specified, radiopharmaceutical therapy, DOTA-TATE

Abstract

Nuclear medicine uses radioactive pharmaceuticals for diagnostic or therapeutic purposes. The ionizing radiation emitted from the radiopharmaceutical is partially absorbed within the patient's body and internal dosimetry is the method to estimate the absorbed dose to a tumour or risk organ. This is of special importance in radiopharmaceutical therapy (RPT), where particle-emitting radionuclides are utilized for their therapeutic effect. A better understanding of where and to what extent the radiation energy is deposited, i.e. dosimetry, in combination with a better understanding of the irradiation-induced biological processes in tissues and tumours, i.e., radiobiology, is the foundation to establish an absorbed dose-effect relationship. This thesis comprises quantitative methods and modelling within dosimetry and radiobiology, with a special focus on quantitative methods for activity concentration, absorbed dose calculation and quantification of biological effects after nuclear medicine exposures. Nonuniformity of activity distribution and the biological effect of internal irradiation is considered in Paper I and Paper II. When a radiopharmaceutical primarily localizes within specific tissue substructures of an organ, the average absorbed dose to the whole organ may become insufficient for dosimetric analysis. Hence, the nonuniformities of the distribution of activity need to be considered and absorbed dose calculations to part of an organ, cellular, or a sub-cellular structure may be a better predictor of the therapy outcome or normal tissue toxicity. In Paper I, a small-scale anatomical dosimetry model of the liver tissue structure addressed the issue of activity nonuniformity. Monte Carlo simulations were performed to simulate the particle transport from various substructure sources within the organ model for some clinically available radionuclides. The model enabled comparison between the average absorbed dose to the entire organ and the local absorbed dose close to the source region, which for particle emitting radionuclides differed significantly. To address the resulting biological effect after internal irradiation, an ex vivo method using the γH2AX surrogate marker to visualize and quantify DNA double-strand breaks in in vivo-irradiated tissues was developed. The method was demonstrated to be useful for γH2AX-foci quantification in both the fast proliferating, radiosensitive testis tissue and the slow proliferating and more radioresistant liver tissue. Image-based activity quantification and absorbed dose estimation are considered in Paper III and Paper IV, using somatostatin receptor targeting agents for both diagnostic and therapeutic applications for neuroendocrine tumours. In Paper III, the quantitative accuracy of pre-therapeutic 111In-Octreoscan® SPECT/CT and [68Ga]Ga-DOTA-TATE PET/CT images was investigated due to the change in clinical method to use PET- instead of SPECT-imaging. Further, the quantitative relationship between the theragnostic pair of DOTA-TATE was investigated in Paper IV. The relationship between activity uptakes observed at [68Ga]Ga-DOTA-TATE PET imaging and absorbed doses at subsequent [177Lu]Lu-DOTA-TATE therapy was studied. The study demonstrated that on a group level, a higher tumour uptake measured from pretherapeutic PET images is associated with higher absorbed doses in subsequent therapy with [177Lu]Lu-DOTA-TATE. However, on the individual level, there are limitations of using the 68Ga PET as a predictor for therapy absorbed dose.

Published

2022

19. Evaluation of the photon contributions to the solar energy conversion for organic luminescent down-shifting liquid beam splitters in hybrid photovoltaic-thermal (PVT) applications using raytracing Monte Carlo simulations

Author

Kenneth Coldrick, James Walshe, John Doran, and George Amarandei

Subjects

Optical Filter, Renewable Energy, Sustainability and the Environment, Physics, Photovoltaic-Thermal, luminescent down-shifting, Monte Carlo Modelling, Spectral Beam Splitting, Heat Transfer Fluid, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials

Abstract

A hybrid photovoltaic-thermal (PVT) system combines photovoltaic (PV) and photo-thermal (PT) energy collection into a single structure, enhancing the potential to achieve greater solar energy conversion efficiencies. Such enhanced efficiencies can result in greater economic returns and could promote a larger uptake of PVT devices in cold and temperate climate countries. Through the utilization of a Monte Carlo ray-tracing model, this work provides new insights into the optical, electrical, and thermal characteristics of PVT devices. In particular, the work focuses on evaluating the behaviour of novel luminescent imidazole-phenanthroline-based working fluids that were previously experimentally investigated as liquid spectral beam splitters (SBS). The modelling procedure outlined here is able of providing an in-depth analysis of various categories of photons undergoing events such as transmission, absorption, parasitic absorption, and luminescent downshifting (LDS) which, otherwise, are difficult or impossible to detect experimentally. Evaluating such photon characteristics provides the possibility to estimate the direct contribution of the luminophore (embedded within the working fluid) to the enhanced conversion efficiencies reported for PVT systems. In addition, the model can also allow for better tuning of the luminophore properties to match the main factors that are influencing the energy conversion dynamics of these systems. The current results indicate that the embedded luminophore is able of providing direct contributions of up to 91% for thermal power generation and 77% towards electrical power generation for the various concentrations of the liquid filters when compared with the individual performances of the independent PV or PT systems.

Published

2023

20. Monte Carlo modelling of percolation and conductivity in carbon filled polymer nanocomposites.

Author

Vas, Joseph Vimal and Joy Thomas, M.

Abstract

Conducting polymer composites are attractive alternatives for applications such as electromagnetic shielding in which metals are conventionally used. They have unique advantages like light weight, ease of processing and good strength to weight ratio. This makes them economically viable especially in industries like avionics where weight is an important criterion. However, a major challenge in using conducting polymer composites in many of the applications is its limited conductivity. Even though many models exist to describe the conductivity of the composites at the macro level taking into account the interparticle conductivity, very few studies are conducted to understand the conductivity of the composites directly from basic principles. In this study, Monte Carlo (MC) simulations are carried out to study the conductivity in such composites. The results obtained using the MC model showed good agreement with the Mamunya model and the experimental measurements. The effect of various parameters like filler diameter and filler conductivity on the final composite conductivity is studied for spherical and fibrous carbon fillers in silicone rubber. The method can be easily adopted for any other filler–polymer combination and can also be used as a predictive tool for designing simple composites of required electrical properties. [ABSTRACT FROM AUTHOR]

Published

2018

21. Transmission Kikuchi diffraction versus electron back-scattering diffraction: A case study on an electron transparent cross-section of TWIP steel.

Author

Gazder, Azdiar A., Elkhodary, Khalil I., Nancarrow, Mitchell J.b., and Saleh, Ahmed A.

Subjects

*ELECTRON backscattering, *AUSTENITIC stainless steel, *MONTE Carlo method, *ELECTRON energy states, *SPECTRAL energy distribution

Abstract

The present case study compares transmission Kikuchi diffraction (TKD) with electron back-scattering diffraction (EBSD) on the same area of an electron transparent cross-section of a twinning induced plasticity steel. While TKD expectedly provides better clarity of internal defect substructures in the band contrast map, EBSD returns orientation data that approaches the quality of the TKD map. This was rationalised by Monte Carlo simulations of the electron energy spreads, which showed that due to the geometry-based compromises associated with adapting a conventional EBSD detector (which is off-axis with respect to the incident electron beam) to TKD, a broadening in the electron energy distribution of the forward-scattered electrons collected on the detector phosphor screen, is unavoidable. In this circumstance, the values of the full-widths at half-maximum of the energy distributions for TKD and EBSD are of the same order. It follows that EBSD on electron transparent cross-sections may be a viable alternative to TKD when: (i) conventional EBSD detectors are adapted to TKD and, (ii) sample microstructures comprise features whose sizes do not mandate the application of TKD. [ABSTRACT FROM AUTHOR]

Published

2017

22. About the contrast of δ' precipitates in bulk Al-Cu-Li alloys in reflection mode with a field-emission scanning electron microscope at low accelerating voltage.

Author

BRODUSCH, NICOLAS, VOISARD, FRÉDÉRIC, and GAUVIN, RAYNALD

Subjects

*LITHIUM, *ALLOYS, *TRANSMISSION electron microscopy, *SPUTTERING (Physics), *SCANNING electron microscopes

Abstract

Characterising the impact of lithium additions in the precipitation sequence in Al-Li-Cu alloys is important to control the strengthening of the final material. Since now, transmission electron microscopy (TEM) at high beam voltage has been the technique of choice to monitor the size and spatial distribution of δ' precipitates (Al3Li). Here we report on the imaging of the δ' phase in such alloys using backscattered electrons (BSE) and low accelerating voltage in a high-resolution field-emission scanning electron microscope. By applying low-energy Ar+ ion milling to the surface after mechanical polishing (MP), the MP-induced corroded layers were efficiently removed and permitted the δ's to be visible with a limited impact on the observed microstructure. The resulting BSE contrast between the δ's and the Al matrix was compared with that obtained using Monte Carlo modelling. The artefacts possibly resulting from the sample preparation procedure were reviewed and discussed and permitted to confirm that these precipitates were effectively the metastable δ's. The method described in this report necessitates less intensive sample preparation than that required for TEM and provides a much larger field of view and an easily interpretable contrast compared to the transmission techniques. [ABSTRACT FROM AUTHOR]

Published

2017

23. Application of Low Voltage Scanning Electron Microscopy and Energy Dispersive X-Ray Spectroscopy

Author

Rickerby, D. G., Rickerby, David G., editor, Valdrè, Giovanni, editor, and Valdrè, Ugo, editor

Published

1999

24. Thermal pre-processing before extraction of polyhydroxyalkanoates for molecular weight quality control

Author

Alan Werker, Ruizhe Pei, Kevin Kim, Giulia Moretto, Angel Estevez-Alonso, Chris Vermeer, Monica Arcos-Hernandez, Jelmer Dijkstra, and Erik de Vries

Subjects

Gelation, Polymers and Plastics, Monte Carlo modelling, Mixed microbial cultures, Quality control, Extraction, Intrinsic viscosity, Polyhydroxyalkanoate production, Condensed Matter Physics, Molecular weight control, Mechanics of Materials, Dimethyl carbonate, Random scission, Materials Chemistry

Abstract

Past studies have repeatedly demonstrated the technical feasibility to produce polyhydroxyalkanoate (PHA) using bacterial biomass of mixed microbial cultures (MMCs). Commercial quality grades of poly(3-hydroxybutyrate-co-3-hydroxyvalerate), PHBV, can be produced with control of average monomer composition. However, demonstration of PHBV production and recovery with quality control of molecular weight (MW) distribution has been lacking in the research literature. Towards this goal, a workflow has been developed for characterizing molecular weight control by thermal treatment pre-processing of dried PHA-rich biomass before solvent extraction. Dimethyl carbonate (DMC) was a suitable solvent in this workflow in the routine evaluation of extractable PHA. From assessments of DMC extraction using differential scanning calorimetry, 125 °C was selected for nominally 100 percent extraction yield independent of polymer 3-hydroxyvalerate (3HV) content (2 to 41 wt.% 3HV) and molecular weight (100 to 1400 kDa). Intrinsic viscosity measurements of PHBV in DMC at 60 °C was used for molecular weight monitoring. Mark-Houwink constants, α (0.738 ± 0.010) and LogK (-2.016 ± 0.025), were estimated for a PHBV co-polymer blend having 36 wt.% 3HV. A model of random scission supported that weight average molecular weight (Mw) was a more robust metric, compared to number average molecular weight (Mn), for assessing the polymer scission rates. During isothermal heat treatment for a given biomass batch, interpreted scission rate was reproducible and commonly, but not always, constant in time. Scission rates between biomass batches were also variable. Measured properties of the polymer in the biomass (thermal stability, biomass PHA content, PHBV grade, initial moisture content) could not be correlated to this observed batch-to-batch variation of scission rate. Molecular weight loss before extraction did not influence the melting temperatures of the co-polymer blends of PHBV evaluated over a wide sub-eutectic range of average 3HV content. Molecular weight changes for these PHBV co-polymer blends were considered to have likely influenced the nature of blend 3HV distribution, and consequently, crystallization behaviour. Molecular weight loss effects on crystallization behaviour at constant PHBV average 3HV wt.% content could then have contributed to the observed variability for glass transition temperatures and melting enthalpies. However, a reproducible correlation between this variability and MW change was not observed.

Published

2023

25. The impact of a non-uniform land surface on the radiation environment over an Arctic fjord - a study with a 3D radiative transfer model for stratus clouds over the Hornsund fjord, Spitsbergen

Author

Izabela Górecka

Subjects

Monte Carlo modelling, Stratus, Solar radiation, Spatial variability, Downward irradiance, Plane-parallel bias, Solar flux anomaly due to the uniform surface assumption, Nadir radiance, Hornsund, Spitsbergen, Arctic, Oceanography, GC1-1581

Abstract

This paper estimates the influence of land topography and cover on 3D radiativeeffects under overcast skies in the Arctic coastal environment, in particular in theHornsund fjord region, Spitsbergen. The authors focus on the impact of anon-uniform surface on: (1) the spatial distribution of solar fluxesreaching the fjord surface, (2) spectral shortwave cloud radiative forcing atthe fjord surface, (3) the solar flux anomaly at the domain surface resultingfrom the assumption of a uniform surface, i.e. the error due to plane parallelassumptions in climate models, and (4) remote sensing of cloud opticalthickness over the fjord. Their dependence on spectral channel, cloud opticalthickness, cloud type, cloud base height, surface albedo and solar zenithangle is discussed. The analysis is based on Monte Carlo simulations of solarradiation transfer over a heterogeneous surface for selected channels of theMODIS radiometer. The simulations showed a considerable impact of the landsurrounding the fjord on the solar radiation over the fjord. The biggestdifferences between atmospheric transmittances over the fjord surface and over theocean were found for a cloud optical thickness τ = 12, low solar zenith angle θ, high cloud base and snow-covered land. For τ = 12, θ = 53°, cloud base height 1.8 km andwavelength λ = 469 nm, the enhancement in irradiance transmittanceover the fjord was 0.19 for the inner fjords and 0.10 for the whole fjord(λ = 469 nm). The land surrounding the Hornsund fjord also hada considerable impact on the spectral cloud radiative forcing on the fjordsurface and the solar flux anomaly at the domain surface due to the uniformsurface assumption. For the mouth and central part of the fjord the error dueto the use of channel 2 of the MODIS radiometer (λ = 858 nm) forcloud optical thickness retrieval was < 1 in the case of low-level clouds(cloud base height 1 km, nadir radiance, θ = 53°, cloudoptical thickness retrieved solely from MODIS channel 2). However, near theshoreline (up to 2 km from it), especially over the inner fjords, the cloudoptical thickness was then overestimated by > 3 for τ = 5 and by> 5 for τ = 20.

Published

2012

26. Monte Carlo Modeling of Dual and Triple Photon Energy Absorptiometry Technique

Author

Alireza Kamali-Asl, Arash Darafsheh, and Seyed Mahmoudreza Aghamiri

Subjects

Bone mineral density (BMD), Dual photon energy absorptiometry (DPA), Triple photon energy absorptiometry (TPA), Monte Carlo modelling, MCNP, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Introduction: Osteoporosis is a bone disease in which there is a reduction in the amount of bone mineral content leading to an increase in the risk of bone fractures. The affected individuals not only have to go through lots of pain and suffering but this disease also results in high economic costs to the society due to a large number of fractures. A timely and accurate diagnosis of this disease makes it possible to start a treatment and thus preventing bone fractures as a result of osteoporosis. Radiographic methods are particularly well suited for in vivo determination of bone mineral density (BMD) due to the relatively high x-ray absorption properties of bone mineral compared to other tissues. Materials and Methods: Monte Carlo simulation has been conducted to explore the possibilities of triple photon energy absorptiometry (TPA) in the measurement of bone mineral content. The purpose of this technique is to correctly measure the bone mineral density in the presence of fatty and soft tissues. The same simulations have been done for a dual photon energy absorptiometry (DPA) system and an extended DPA system. Results: Using DPA with three components improves the accuracy of the obtained result while the simulation results show that TPA system is not accurate enough to be considered as an adequate method for the measurement of bone mineral density. Discussion: The reason for the improvement in the accuracy is the consideration of fatty tissue in TPA method while having attenuation coefficient as a function of energy makes TPA an inadequate method. Conclusion: Using TPA method is not a perfect solution to overcome the problem of non uniformity in the distribution of fatty tissue.

Published

2007

27. Range verification methods in particle therapy: underlying physics and Monte Carlo modelling

Author

Aafke Christine Kraan

Subjects

PET, Monte Carlo modelling, Prompt gamma, hadron interactions, Range verification, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Hadron therapy allows for highly conformal dose distributions and better sparing of organs-at-risk, thanks to the characteristic dose deposition as function of depth. However, the quality of hadron therapy treatments is closely connected with the ability to predict and achieve a given beam range in the patient. Currently, uncertainties in particle range lead to the employment of safety margins, at the expense of treatment quality. Much research in particle therapy is therefore aimed at developing methods to verify the particle range in patients.Non-invasive in-vivo monitoring of the particle range can be performed by detecting secondary radiation, emitted from the patient as a result of nuclear interactions of charged hadrons with tissue, including beta+ emitters, prompt photons, and charged fragments. The correctness of the dose delivery can be verified by comparing measured and pre-calculated distributions of the secondary particles. The reliability of Monte Carlo (MC) predictions is a key issue. Correctly modelling the production of secondaries is a non-trivial task, because it involves nuclear physics interactions at energies, where no rigorous theories exist to describe them. The goal of this review is to provide a comprehensive overview of various aspects in modelling the physics processes for range verification with secondary particles produced in proton, carbon, and heavier ion irradiation. We discuss electromagnetic and nuclear interactions of charged hadrons in matter, which is followed by a summary of some widely used MC codes in hadron therapy. Then we describe selected examples of how these codes have been validated and used in three range verification techniques: PET, prompt gamma, and charged particle detection. We include research studies and clinically applied methods. For each of the techniques we point out advantages and disadvantages, as well as clinical challenges still to be addressed, focusing on MC simulation aspects.

Published

2015

28. Computers: Scope of Modelling

Author

Moglestue, C. and Moglestue, C.

Published

1993

29. Coded-aperture imaging systems: Past, present and future development – A review.

Author

Cieślak, Michał J., Gamage, Kelum A.A., and Glover, Robert

Subjects

*ORGANIC scintillators, *IMAGING systems, *GAMMA rays, *X-ray detection, *NEUTRON counters, *NUCLEAR facility decommissioning, *MONTE Carlo method

Abstract

Scintillator based coded-aperture imaging has proven to be effective when applied for X- and gamma-ray detection. Adaptation of the same method for neutron imaging has resulted in a number of propitious systems, which could be potentially employed for neutron detection in security and nuclear decommissioning applications. Recently developed scintillator based coded-aperture imagers reveal that localisation of neutron sources using this technique may be feasible, since pulse shape discrimination algorithms implemented in the digital domain can reliably separate gamma-rays from fast neutron interactions occurring within an organic scintillator. Moreover, recent advancements in the development of solid organic scintillators make them a viable solution for nuclear decommissioning applications as they present less hazardous characteristics than currently dominating liquid scintillation detectors. In this paper existing applications of coded-apertures for radiation detection are critically reviewed, highlighting potential improvements for coded-aperture based neutron source localisation. Further, the suitability of coded-apertures for neutron imaging in nuclear decommissioning is also assessed using Monte-Carlo modelling. [ABSTRACT FROM AUTHOR]

Published

2016

30. Concurrent Reflectance Confocal Microscopy and Laser Doppler Flowmetry to Improve Skin Cancer Imaging: A Monte Carlo Model and Experimental Validation.

Author

Mowla, Alireza, Taimre, Thomas, Yah Leng Lim, Bertling, Karl, Wilson, Stephen J., Prow, Tarl W., Soyer, H. Peter, and Rakić, Aleksandar D.

Subjects

*CONFOCAL microscopy, *CONFOCAL fluorescence microscopy, *LASER Doppler velocimeter, *SKIN cancer, *MONTE Carlo method

Abstract

Optical interrogation of suspicious skin lesions is standard care in the management of skin cancer worldwide. Morphological and functional markers of malignancy are often combined to improve expert human diagnostic power. We propose the evaluation of the combination of two independent optical biomarkers of skin tumours concurrently. The morphological modality of reflectance confocal microscopy (RCM) is combined with the functional modality of laser Doppler flowmetry, which is capable of quantifying tissue perfusion. To realize the idea, we propose laser feedback interferometry as an implementation of RCM, which is able to detect the Doppler signal in addition to the confocal reflectance signal. Based on the proposed technique, we study numerical models of skin tissue incorporating two optical biomarkers of malignancy: (i) abnormal red blood cell velocities and concentrations and (ii) anomalous optical properties manifested through tissue confocal reflectance, using Monte Carlo simulation. We also conduct a laboratory experiment on a microfluidic channel containing a dynamic turbid medium, to validate the efficacy of the technique. We quantify the performance of the technique by examining a signal to background ratio (SBR) in both the numerical and experimental models, and it is shown that both simulated and experimental SBRs improve consistently using this technique. This work indicates the feasibility of an optical instrument, which may have a role in enhanced imaging of skin malignancies. [ABSTRACT FROM AUTHOR]

Published

2016

31. Computed tomography to evaluate the influence of the internal concrete structure on attenuation coefficients.

Author

Brabants, Lowie, Reniers, Brigitte, Cavus, Hasan, Paepen, Jan, Vandoren, Bram, and Schroeyers, Wouter

Subjects

*ATTENUATION coefficients, *COMPUTED tomography, *GAMMA ray spectrometry, *MONTE Carlo method, *CONCRETE, *DEPTH profiling

Abstract

In this work, the influence of the internal concrete structure on linear attenuation coefficients was investigated. The attenuation coefficient of 15 different concrete samples, identical in mixing design, was measured with a narrow beam setup in an energy range of 609–2447 keV. Fluctuations of up to 16.8% in the measured attenuation coefficients were observed between the different samples. In order to attribute these fluctuations to the internal sample structure, Computer Tomography (CT) scans were made of each individual sample. The scans were incorporated into a Monte Carlo (MC) model of the attenuation setup. Results of the MC model closely match experimental values and the same fluctuating trend between the attenuation coefficients of the different samples was observed. The CT images revealed the presence of mortar at the beam location for samples with low linear attenuation coefficient values. Correspondingly, aggregates were found to be present at the beam location for samples with high attenuation coefficients. The impact of the internal concrete structure can play an important role in applications such as contamination depth profiling or activity determinations in nuclear decommissioning. Also for other applications in gamma-ray spectrometry, the proposed method of combining CT images with MC modelling can be a useful tool to improve the quantitative analysis of radionuclides. Especially for inhomogeneous samples or samples of irregular shape, the CT imaging can add value. • The influence of the concrete internal structure (aggregates, mortar and voids) on attenuation coefficients was studied. • A compact narrow-beam setup was used to measure the attenuation coefficient of different concrete samples. • Computed Tomography images of the concrete samples were made and incorporated in a Monte Carlo model. • Fluctuations in the attenuation coefficient of 16.8% were measured. [ABSTRACT FROM AUTHOR]

Published

2022

32. Characterization of HPGe detectors using Computed Tomography.

Author

Hedman, A., Bahar Gogani, J., Granström, M., Johansson, L., Andersson, J.S., and Ramebäck, H.

Subjects

*COMPUTED tomography, *HIGH resolution imaging, *GERMANIUM detectors, *TEMPERATURE effect, *MONTE Carlo method

Abstract

Computed Tomography (CT) high-resolution imaging have been used to investigate if there is a significant change in the crystal-to-window distance, i.e. the air gap thickness, in a small n-type detector cooled to 77 K, and in a medium sized p-type HPGe detector when cooled to 100 K. The findings were compared to detector dimension data made available by the manufacturer. The air gap thickness increased by (0.38±0.07) mm for the n-type detector and by (0.40±0.15) mm for the p-type detector when the detectors were cooled to 77 resp. 100 K compared to at room temperature. Monte Carlo calculations indicate that these differences have a significant impact on the efficiency in close geometries (<5 cm). In the energy range of 40–700 keV with a source placed directly on endcap, the change in detector efficiency with temperature is 1.9–2.9% for the n-type detector and 0.3–2.1% for the p-type detector. The measured air gap thickness when cooling the detector was 1.1 mm thicker than manufacturer data for the n-type detector and 0.2 mm thicker for the p-type detector. In the energy range of 40–700 keV and with a source on endcap, this result in a change in detector efficiency of 5.2–7.1% for the n-type detector and 0.2–1.0% for the p-type detector, i.e. the detector efficiency is overestimated using data available by the manufacturer. [ABSTRACT FROM AUTHOR]

Published

2015

33. Monte Carlo modelling of distributions of the d–d and d–t reaction products in a dedicated measuring chamber at the fast neutron generator.

Author

Wiącek, U. and Dankowski, J.

Subjects

*FAST neutrons, *NEUTRON generators, *TOKAMAKS, *FUSION (Phase transformation), *MONTE Carlo method

Abstract

A fast neutron generator with a tritium target can be used to generate d–d and d–t reaction products corresponding to thermonuclear reactions in tokamaks or stellarators. In this way, convenient laboratory conditions for tests of spectrometric detectors – prior to their installation at the big fusion devices – can be achieved. Distributions of the alpha particles, protons, deuterons, and tritons generated by the fast neutron generator operating at the Institute of Nuclear Physics PAN in Cracow, Poland, were calculated by means of the Monte Carlo (MC) codes. Results of this MC modelling are presented. [ABSTRACT FROM AUTHOR]

Published

2015

34. MODELING OF NEUTRON RADIATION INTERACTION PROCESSES AND DAMAGE IN THE CELLS SATURATED WITH BORON CARBIDE NANOPARTICLES.

Author

Lagzdina, E., Stirkė, A., Garankin, J., Puzas, A., Plukienė, R., and Plukis, A.

Subjects

NEUTRONS, BORON carbides, NANOPARTICLES analysis, RADIATION, CELL analysis, MONTE Carlo method

Abstract

In the present study we perform modelling of neutron radiation interaction processes and damage in the cells saturated with boron carbide (B4C) nanoparticles (NPs). The Monte Carlo N-Particle Code MCNP6 has been used for neutron transport calculation, irradiation parameters optimization and energy deposition in the cell and reaction rates calculations. The obtained reaction rates for (10B(n,α)7Li) indicates which 10B concentration in the cell are needed for desirable effect. The experiments of B4C NPs uptake in the L929 cells were carried out to ascertain the maximal tolerable concentration of NPs in cells. The concentration of boron in the cells has been measured by ICP-MS technique. The conclusions on optimized neutron irradiation parameters and BNCT possibility using saturated 10B concentration in the cells have been drawn. [ABSTRACT FROM AUTHOR]

Published

2014

35. Development of an improved dosemeter for assessments of risk to the eye.

Author

Eakins, J.S., Gilvin, P.J., Hager, L.G., and Tanner, R.J.

Subjects

*RISK assessment, *CRYSTALLINE lens, *RADIATION protection, *MATHEMATICAL optimization, *POLYPROPYLENE, *MONTE Carlo method

Abstract

To develop an improved dosemeter to assess photon and beta exposures of the eye lens, and in response to issues surrounding the preferred values of H lens to be used for guiding operational radiation protection, a programme of re-optimization of the current PHE thermoluminescence dosemeter has been performed. In particular, refinements of the filter located in front of the sensitive 7 LiF:Mg,Cu,P element have been considered, so that the dose response characteristics of the device provide a better and more conservative estimate of risk. The investigation was performed using the Monte Carlo modelling software MCNP5, to produce a final design that featured a filter containing a 9.5 mm diameter polypropylene hemisphere truncated to a maximum thickness of 3.0 mm. The responses of this design in photon and electron fields are presented here, contrasted against those of the existing PHE eye dosemeter, with respect to the operational quantity H p (3, E , θ ) and both current and suggested values for the absorbed dose per fluence risk profile for the lens of the eye. [ABSTRACT FROM AUTHOR]

Published

2014

36. Understand the importance of molecular organization at polymer–polymer interfaces in excitonic solar cells.

Author

Correia, Helena M.G., Barbosa, Hélder M.C., Marques, Luís, and Ramos, Marta M.D.

Subjects

*POLYMER-polymer complexes, *INTERFACES (Physical sciences), *EXCITON theory, *SOLAR cells, *PHOTOVOLTAIC power systems, *ENERGY conversion

Abstract

Abstract: To improve the photovoltaic power conversion efficiency of organic solar cells it is necessary to increase the open circuit voltage and short circuit current. Prior work has shown that both these device properties can be improved by using donor–acceptor systems composed of two polymers, which favors excitons dissociation and charge generation, and subsequent charge transport to the electrodes. However, device performance depends strongly on the experimental conditions under which the device was created, because they determine the molecular structure of the interface between the two polymers. Polymer chains can have different conformations relative to the interface, creating different arrangements of the conjugated segments whose disorder degree can affect energy and charge transfer. Thus, understanding this effect is of utmost importance to improve the efficiency of all-polymer excitonic solar cells. In this work, we present the results obtained using a Monte Carlo model that takes into account the arrangement of the polymer strands at polymer–polymer interfaces and considers the main physical processes mediating exciton and charge dynamics. Our results show that the amount of charge extracted from the interface is sensitive to the orientation of polymer strands at interfaces and on the diffusive layer width formed by the mixture of both polymers. [Copyright &y& Elsevier]

Published

2014

37. Remote auditing of radiotherapy facilities using optically stimulated luminescence dosimeters.

Author

Lye, Jessica, Dunn, Leon, Kenny, John, Lehmann, Joerg, Kron, Tomas, Oliver, Chris, Butler, Duncan, Alves, Andrew, Johnston, Peter, Franich, Rick, and Williams, Ivan

Subjects

*RADIOTHERAPY, *LUMINESCENCE spectroscopy, *DOSIMETERS, *ENERGY security, *MATHEMATICAL models, *PHOTON beams

Abstract

Purpose: On 1 July 2012, the Australian Clinical Dosimetry Service (ACDS) released its Optically Stimulated Luminescent Dosimeter (OSLD) Level I audit, replacing the previous TLD based audit. The aim of this work is to present the results from this new service and the complete uncertainty analysis on which the audit tolerances are based. Methods: The audit release was preceded by a rigorous evaluation of the InLight R nanoDot OSLD system from Landauer (Landauer, Inc., Glenwood, IL). Energy dependence, signal fading from multiple irradiations, batch variation, reader variation, and dose response factors were identified and quantified for each individual OSLD. The detectors are mailed to the facility in small PMMA blocks, based on the design of the existing Radiological Physics Centre audit. Modeling and measurement were used to determine a factor that could convert the dose measured in the PMMA block, to dose in water for the facility's reference conditions. This factor is dependent on the beam spectrum. The TPR20,10 was used as the beam quality index to determine the specific block factor for a beam being audited. The audit tolerance was defined using a rigorous uncertainty calculation. The audit outcome is then determined using a scientifically based two tiered action level approach. Audit outcomes within two standard deviations were defined as Pass (Optimal Level), within three standard deviations as Pass (Action Level), and outside of three standard deviations the outcome is Fail (Out of Tolerance). Results: To-date the ACDS has audited 108 photon beams with TLD and 162 photon beams with OSLD. The TLD audit results had an average deviation from ACDS of 0.0% and a standard deviation of 1.8%. The OSLD audit results had an average deviation of -0.2% and a standard deviation of 1.4%. The relative combined standard uncertainty was calculated to be 1.3% (1s). Pass (Optimal Level) was reduced to =2.6% (2s), and Fail (Out of Tolerance) was reduced to >3.9% (3s) for the new OSLD audit. Previously with the TLD audit the Pass (Optimal Level) and Fail (Out of Tolerance) were set at =4.0% (2s) and >6.0% (3s). Conclusions: The calculated standard uncertainty of 1.3% at one standard deviation is consistent with the measured standard deviation of 1.4% from the audits and confirming the suitability of the uncertainty budget derived audit tolerances. The OSLD audit shows greater accuracy than the previous TLD audit, justifying the reduction in audit tolerances. In the TLD audit, all outcomes were Pass (Optimal Level) suggesting that the tolerances were too conservative. In the OSLD audit 94% of the audits have resulted in Pass (Optimal level) and 6% of the audits have resulted in Pass (Action Level). All Pass (Action level) results have been resolved with a repeat OSLD audit, or an on-site ion chamber measurement. [ABSTRACT FROM AUTHOR]

Published

2014

38. Further optimisation of a simple X-ray diffraction instrument for portable and planetary applications

Author

Hansford, Graeme M.

Subjects

*MATHEMATICAL optimization, *X-ray diffraction, *MATHEMATICAL physics, *PHYSICAL constants, *SYMMETRY (Physics), *GEOMETRIC analysis

Abstract

Abstract: This paper extends the work presented in a previous publication (Hansford, 2011 , subsequently referred to as Paper 1) to optimise the performance of a simple reflection-mode X-ray diffraction instrument with respect to the geometrical configuration. Both papers focus on the maximisation or minimisation of quantifiable characteristics of the X-ray beam incident on the sample in order to optimise the peak heights and widths in the resulting diffractogram. The reason for this approach is mathematical tractability, and its success relies on the relationship between the incident beam characteristics and the diffractogram properties. Part of Paper 1 was devoted to the minimisation of the equatorial divergence angle of the X-ray beam, while keeping the total X-ray flux constant, in order to minimise the diffractogram peak widths. While equatorial divergence and peak widths are certainly linked, their relationship is complex and depends quite significantly on other geometric parameters. An alternative optimisation approach is taken in this paper, focusing on the maximisation of the X-ray flux and minimisation of the incident beam axial divergence, while equatorial divergence is kept constant to ensure at least reasonable resolution. The rationale for this approach is that the incident beam flux and the axial divergence angle are more directly linked to diffractogram peak heights and peak asymmetry, respectively. Families of candidate geometric solutions result from this approach which is regarded as advantageous because there is no unique optimised solution and it allows the parameter space to be fully explored. [Copyright &y& Elsevier]

Published

2012

39. The ideal neutron energy spectrum of 241AmLi(α,n)10B sources

Author

Tagziria, H. and Looman, M.

Subjects

*NEUTRONS, *LITHIUM isotopes, *MICROENCAPSULATION, *SPECTRAL energy distribution, *MONTE Carlo method, *PARTICLE size distribution

Abstract

Abstract: The pure and unperturbed (ideal, at birth) spectra of 241AmLi(α,n)10B sources were determined using Monte Carlo simulations, along with the neutron spectrum measured outside a source''s encapsulation. Various parameters that affect photon and neutron yields and energy distributions were investigated. The source''s microparticle size was deduced. Subsequently, the calculated theoretical neutron energy spectra of the 241AmLi(α,n) reaction were compared to both the ideal spectra and the calculation of Geiger and van der Zwan predominantly used since early 1970s. [Copyright &y& Elsevier]

Published

2012

40. On the use of the infinite matrix assumption and associated concepts: A critical review

Author

Guérin, Guillaume, Mercier, Norbert, Nathan, Roger, Adamiec, Grzegorz, and Lefrais, Yannick

Subjects

*INFINITE matrices, *RADIATION doses, *RADIATION dosimetry, *NUMERICAL calculations, *RADIOACTIVITY, *MONTE Carlo method

Abstract

Abstract: The infinite matrix assumption is commonly used to derive dose rates in the field of paleodosimetric dating methods. The update of nuclear data allowed calculating new dose rate conversion factors and attenuation factors for taking account of grain size. The relevance of the infinite matrix assumption was found to be limited to specific cases and a discussion of potential errors in estimating dose rates to natural dosimeters in sedimentary media is proposed. A new set of geometric features is shown to be of paramount importance for estimating dose rates in sedimentary media. To quantify these effects, Monte Carlo modelling was applied and the architecture of the programmes is described. It is also shown that proper characterization of sediment samples, coupled to the modelling of radioactivity in these sediments may provide more accurate dose rates to quartz grains, down to the single grain scale. [Copyright &y& Elsevier]

Published

2012

41. RF dynamic and noise performance of Metallic Source/Drain SOI n-MOSFETs

Author

Martin, Maria J., Pascual, Elena, and Rengel, Raúl

Subjects

*DYNAMICS, *NOISE measurement, *SCHOTTKY barrier, *PERFORMANCE evaluation, *MONTE Carlo method, *QUANTUM theory, *SCATTERING (Physics), *MATHEMATICAL optimization

Abstract

Abstract: This paper presents a detailed study of the RF and noise performance of n-type Schottky barrier (SB) MOSFETs with a particular focus on the influence of the Schottky barrier height (SBH) on the main dynamic and noise figures of merit. With this aim, a 2D Monte Carlo simulator including tunnelling transport across Schottky interfaces has been developed, with special care to consider quantum transmission coefficients and the influence of image charge effects at the Schottky junctions. Particular attention is paid to the microscopic transport features, including carrier mean free paths or number of scattering events along the channel for investigating the optimization of the device topology and the strategic concepts related to the noise performance of this new architecture. A more effective control of the gate electrode over drain current for low SBH (discussed in terms of internal physical quantities) is translated into an enhanced transconductance gm , cut-off frequency fT , and non-quasistatic dynamic parameters. The drain and gate intrinsic noise sources show a noteworthy degradation with the SBH reduction due to the increased current, influence of hot carriers and reduced number of phonon scatterings. However, the results evidence that this effect is counterbalanced by the extremely improved dynamic performance in terms of gm and fT . Therefore, the deterioration of the intrinsic noise performance of the SB-MOSFET has no significant impact on high-frequency noise FoMs as NFmin , Rn and Gass for low SBH and large gate overdrive conditions. The role of the SBH on Γopt , optimum noise reactance and susceptance has been also analyzed. [Copyright &y& Elsevier]

Published

2012

42. Monte Carlo modelling of a silicon strip detector for microbeam radiation therapy

Author

Cullen, Ashley, Lerch, Michael, Petasecca, Marco, and Rosenfeld, Anatoly

Subjects

*MONTE Carlo method, *SILICON diodes, *RADIOTHERAPY, *SYNCHROTRON radiation, *PARTICLES (Nuclear physics), *RADIATION dosimetry

Abstract

Abstract: Microbeam radiation therapy is an experimental technique utilising synchrotron X-rays collimated into a planar array of microbeams. Due to the complex structure of the radiation field and high dose rate, this introduces dosimetric challenges. Current dosimetric methods are inadequate in that they lack either real-time readout, or high spatial resolution. A detector system, consisting of the Silicon Multi-Strip Detector and associated readout system was developed at the University of Wollongong. This system performs online, real-time dosimetry, and is designed for placement upstream of the patient as a transmission detector. The interaction of synchrotron radiation with this detector, both in terms of perturbative effects on the beam and interactions within the detector are investigated with the Monte Carlo simulation toolkit, Geant4. The interaction percentage of the detector with the traversing beam was determined as being (1.97 ± 0.01) %. Energy deposition was found to be uniform across the depth of the detector, negating the most proximal and distal 5-μm region, a phenomenon that may be attributed to a lack of charged particle equilibrium. The effect that the detector has on a traversing beam’s macroscopic dose deposition was determined as being a mean reduction in dose of (1.44 ± 0.15) % for depths in water between 5 and 35 mm. [Copyright &y& Elsevier]

Published

2011

43. Low energy X-ray radiation impact on coated Si constructions

Author

Adliene, D., Cibulskaite, I., and Meškinis, Š.

Subjects

*SURFACE coatings, *X-rays, *SILICON, *AMORPHOUS semiconductors, *HYDROGENATION, *CARBON, *THIN films, *SEMICONDUCTOR wafers, *MONTE Carlo method

Abstract

Abstract: Low energy X-ray radiation impact on the coated Si structures is discussed in this paper. Experimental sandwich structures consisting of amorphous hydrogenated a:C–H or SiO x -containing DLC films were synthesized on Si 〈111〉 wafers using direct ion deposition method and exposed to low energy (medical diagnostic range) X-ray photons. Irradiation of samples was performed continuously or in sequences and protective characteristics of the irradiated DLC films were investigated. Experimental data were used as the input data for Monte Carlo modelling of X-ray scattering effects in the coated silicon constructions, which affect significantly the “signal to noise ratio” in DLC-coated Si structures proposed for their application in medical radiation detectors. Modelling results obtained in the case of DLC coatings were compared to the results of calculations performed for other commonly used combinations coating–detector material. The evaluation method of coated structures for their possible application in medical radiation detector constructions has been proposed in this paper. It is based on the best achieved compatibility between the appropriate mechanical characteristics, coating’s resistance against the radiation damage and the lowest estimated scattering to total dose ratio in the coated radiation sensitive volume. [Copyright &y& Elsevier]

Published

2010

44. Lethal events in V79 cells irradiated by low-energy protons and correlations with distribution patterns of energy deposition, radical concentration and DNA damage

Author

Davídková, Marie, Kundrát, Pavel, Štěpán, Václav, Palajová, Zdenka, and Judas, Libor

Subjects

*EFFECT of radiation on cells, *PHYSIOLOGICAL effects of protons, *DNA damage, *RADIOBIOLOGY, *MONTE Carlo method, *LINEAR energy transfer

Abstract

Abstract: Published survival data of V79 cells irradiated by 0.5–5.0MeV (7–) protons have been analyzed with a detailed radiobiological model to estimate the per-track yields of lethal lesions. Their correlations with distribution patterns of deposited energy, radical concentrations and with the yields of specific classes of DNA damage have been studied. The observed correlations indicate a potential interpretation of DNA damage lethal for the cell and the initial physical and chemical processes leading to such damage. [Copyright &y& Elsevier]

Published

2009

45. A model of growth of titanium dioxide crystals with simultaneous transformation from anatase to rutile

Author

Cooper, Ian L., Egerton, Terry A., and Qiu, Fulian

Subjects

*CRYSTAL models, *TITANIUM dioxide, *CRYSTAL growth, *RUTILE, *EVAPORATION (Chemistry), *CONDENSATION, *MONTE Carlo method

Abstract

Abstract: This study simulates the combination of crystal growth by evaporation–condensation with the potential for a phase change once the crystals have reached a critical size. Crystal growth has been simulated as a two-dimensional Monte Carlo process in which the probability of accepting or rejecting an individual evaporation–condensation step is given by the Metropolis algorithm. Crystals, taken to be of the anatase form of TiO2, which have grown larger than a specified critical size may transform irreversibly to a second phase, taken to be rutile. The probability of conversion increases with increasing crystal size. For each critical size there exists a limited range over which the transformation kinetics follow the familiar relationship α =1−exp(−kt n ) (where α is the fractional conversion at time, t). The dependence of the mean size of the two polymorphs and of the rutile size-spread (rms) on critical size have been investigated. The most significant aspect of the plots of the normalized size-spread, rms/mean-size, is its gradual increase as the rutile fraction increases from 0.75 to 0.98. [Copyright &y& Elsevier]

Published

2009

46. Monte Carlo modelling of a TLD device containing 7LiF:Mg,Cu,P detectors

Author

Eakins, J.S., Bartlett, D.T., Hager, L.G., and Tanner, R.J.

Subjects

*MONTE Carlo method, *DETECTORS, *THERMOLUMINESCENCE dosimetry, *PHOTONS

Abstract

Abstract: The Monte Carlo code MCNP-4C2 is used to design a new personal thermoluminescence dosemeter that assesses both and in mixed photon/electron fields. The new dosemeter utilizes two 7LiF:Mg,Cu,P elements contained within a Harshaw TLD-700H card, itself inside a polypropylene holder with walls 2mm thick. Several potential designs of holder are considered; the best incorporates a polytetrafluoroethylene cylinder of diameter 18mm and thickness 4.3mm that acts as a filter to provide the correct electron cut-off and an acceptably flat relative response to photons, with an open hole in front of the element. Response characteristics for both detectors in this final design are presented for irradiation from a variety of angles of interest, with source energies between 16 and 6174keV used. Comparison is made between modelled and measured data at normal incidence; the relative responses generally agree well. A new estimate for the relative light conversion efficiency relevant to the 7LiF:Mg,Cu,P is also derived and presented. [Copyright &y& Elsevier]

Published

2008

47. Selection of parameters for μE-beam welding.

Author

Knorovsky, G. A., MacCallum, D. O., and Meyers, M. T.

Subjects

*ELECTRON beam welding, *INDUSTRIAL applications of electron beams, *MICROELECTROMECHANICAL systems, *SCANNING electron microscopes, *MONTE Carlo method, *MATHEMATICAL models

Abstract

Electron beam welding is a well known process used where high precision, high reliability welds are needed, often in exotic materials. Recently, it has been proposed to apply the electron beam produced in a standard scanning electron microscope (SEM), with reversible modifications to increase beam current, for microscale welding. In addition to providing the clean environment associated with the column vacuum, the SEM in imaging mode provides exceptional capabilities in visualising extremely small parts. Furthermore, the standard stage and beam motion controls offer the possibility of flexible programming of beam path with relatively minor software additions. In order to better evaluate the requirements for and effects of μE-beam welding (μEBW) on typical microtechnologically important materials, a clear understanding of the characteristics of the SEM's beam and its interaction with possible target materials is needed. The penetration ability of electrons depends strongly upon their accelerating voltage and the target they are being directed at. Hence, in some circumstances the beam may interact as a surface heat source, while in others it may act as a volume heat source, with important consequences on weld schedule development for the parts and geometry being welded. In this work, the authors explore some of the factors involved and propose simple models for the electron beam heat source which depend on the parameters being used. [ABSTRACT FROM AUTHOR]

Published

2006

48. Ion transmission through nano-apertures

Author

Taylor, M.L., Franich, R.D., Alves, A., Reichart, P., Jamieson, D.N., and Johnston, P.N.

Subjects

*ION bombardment, *COLLISIONS (Nuclear physics), *LITHOGRAPHY, *INTERMEDIATES (Chemistry)

Abstract

Abstract: Localisation of ion impacts with a resolution better than can be achieved with a focused ion beam microprobe may potentially be achieved by employing a high-aspect ratio nano-aperture mask. The present paper applies Monte Carlo methods to investigate the role of ion scattering and straggling through the aperture and the influence of these processes on the transmitted ion energy and intensity distribution. The objective of the investigation is to determine the potential of this method for delivering few or single ions to sub-100nm locations on substrates. Simulation of 2 and 4MeV He, 8MeV F and 71MeV Cu has indicated that the masking process is effective, with probabilities between 82% and 93% of obtaining single ions with full energy at the exit of the aperture. Possible applications include precision ion doping, single-ion machining and potentially ion beam analysis. [Copyright &y& Elsevier]

Published

2006

49. Impact of reflecting land surface on radiation environment over Hornsund, Spitsbergen – a model study for cloudless skies

Author

Izabela Górecka and Anna Rozwadowska

Subjects

Surface (mathematics), 010504 meteorology & atmospheric sciences, Ecology, Model study, Monte Carlo modelling, nadir radiance, lcsh:QE1-996.5, fjord, Radiation, Atmospheric sciences, 01 natural sciences, 010309 optics, Svalbard, lcsh:Geology, Arctic, 0103 physical sciences, Environmental science, irradiance transmittance, Ecology, Evolution, Behavior and Systematics, aerosol radiative forcing, 0105 earth and related environmental sciences

Abstract

This paper addresses the influence of land topography and cover on 3D radiative effects under cloudless skies in the Hornsund area, Spitsbergen, Svalbard. The authors used Monte Carlo simulations of solar radiation transfer over a heterogeneous surface to study the impact of a non-uniform surface on: (1) the spatial distribution of irradiance transmittance at the fjord surface under cloudless skies; (2) the spectral shortwave aerosol radiative forcing at the fjord surface; (3) normalized nadir radiance at the Top Of the Atmosphere (TOA) over the fjord. The modelled transmittances and radiances over the fjord are compared to the transmittances and radiances over the open ocean under the same conditions. The dependence of the 3D radiative effects on aerosol optical thickness, aerosol type, surface albedo distribution, solar azimuth and zenith angle and spectral channel is discussed. The analysis was done for channels 3 (459-479 nm) and 2 (841-876 nm) of the MODIS radiometer. In the simulations a flat water surface was assumed. The study shows that snow-covered land surrounding the fjord strongly modifies the radiation environment over the fjord surface. The enhancement of the mean irradiance transmittance over the fjord with respect to the open ocean is up to 0.06 for channel 3. The enhancement exceeds 0.11 in the vicinity of sunlit cliffs. The influence of the snow-covered land on the TOA radiance over the fjord in channel 3 is comparable to the impact of an increase in aerosol optical thickness of over 100%, and in lateral fjords of up to several hundred percent. The increase in TOA radiance is wavelength dependent. These effects may affect retrievals of aerosol optical thickness.

Published

2017

50. Monte Carlo modelling of continuous adiabatic MSMPR crystallizer

Author

Piotrowski, Krzysztof and Piotrowski, Jerzy

Subjects

*MONTE Carlo method, *PHYSICAL & theoretical chemistry, *CRYSTAL growth, *CRYSTAL grain boundaries

Abstract

Abstract: A Monte Carlo-based algorithm for simulating the mass crystallisation process in a continuous adiabatic MSMPR crystallizer was presented. The algorithm is based on accurate, reciprocal interrelations among mass, heat, population balances and kinetic (nucleation, crystal growth) equations. The algorithm was successfully used to simulate the mass crystallisation process of the two inorganic salts—KNO3 and CuSO4·5H2O—where ΔL McCabe''s rule is fulfilled. The obtained results reflect physical nature of the mass crystallisation process correctly reproducing the periodical fluctuations of selected process parameters. [Copyright &y& Elsevier]

Published

2005