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\n\nJoensuu, H., Kankaanranta, L., Seppala, T., Auterinen, I., Kallio, M., Kulvik, M., Laakso, J., Savolainen, S., Boron neutron capture therapy of brain tumors: Clinical trials at the Finnish facility using boronophenylalanine (2003) Journal of Neuro-Oncology, 62 (1-2), pp. 123-134. , DOI 10.1023/A:1023293006617; \n\nKouri, M., Undifferentiated sinonasal carcinoma may respond to single-fraction boron neutron capture therapy (2004) Radiother. Oncol., 72 (1), pp. 83-85; \n\nAuterinen, I., Hiismäki, P., Epithermal BNCT neutron beam design for a Triga II reactor (1993) Advances in Neutron Capture Therapy, pp. 81-84. , A. H. Soloway and R. F. Barth (Eds.), Proceedings of the 5th International Symposium on Neutron Capture Therapy, (Columbus, Ohio, 1992), Plenum Press, New York; \n\nAuterinen, I., Metamorphoses of a 35 year-old Triga reactor into a modern BNCT facility (2001) Frontiers in Neutron Capture Therapy, pp. 267-275. , M. F. Hawthorne, K. Shelly and R. J. Wiersema (Eds.), Kluwer Academic, New York; \n\nBarth, R.F., Coderre, J.A., Vicente, M.G.H., Blue, T.E., Boron neutron capture therapy of cancer: Current status and future prospects (2005) Clinical Cancer Research, 11 (11), pp. 3987-4002. , DOI 10.1158/1078-0432.CCR-05-0035; \n\nNigg, D.W., Methods for radiation dose distribution analysis and treatment planning in boron neutron capture therapy (1994) International Journal of Radiation Oncology Biology Physics, 28 (5), pp. 1121-1134; \n\nNigg, D.W., Wheeler, F.J., Wessol, D.E., Capala, J., Chadha, M., Computational dosimetry and treatment planning for boron neutron capture therapy (1997) Journal of Neuro-Oncology, 33 (1-2), pp. 93-104; \n\nNigg, D.W., Computational dosimetry and treatment planning considerations for neutron capture therapy (2003) Journal of Neuro-Oncology, 62 (1-2), pp. 75-86. , DOI 10.1023/A:1023241022546; \n\nSeppälä, T., (2002) FiR 1 Epithermal Neutron Beam Model and Dose Calculation for Treatment Planning in Neutron Capture Therapy, p. 46. , Ph.D. thesis, University of Helsinki Report Series in Physics, HU-P-D103, + appendices; \n\nSeppälä, T., Aspects of dose planning and patient positioning for BNC-treatment at FiR 1 (1999) Med. Biol. Eng. Comput., 37, pp. 402-403; \n\nSimbierowicz, P., Olin, M., Investigation of the influence of heterogeneous porosity on matrix diffusion: A novel approach using adaptive tree-multigrid technique and real porosity data (1997) Scientific Basis for Nuclear Waste Management XX, Symposium Proceedings, 465, pp. 847-854. , W. Gray and I. Triay (Eds.), Materials Research Society, Pittsburgh; \n\nGaspar, C., Simbierowicz, P., Difference schemes in tree-structured multigrid context (1992) Computational Methods in Water Resources IX, 1, pp. 555-562. , Elsevier Applied Science; \n\nGaspar, C., Jozsa, J., Simbierowicz, P., Lagrangian modelling of the convective diffusion problem using unstructured grids and multigrid technique (1991) Water Pollution: Modelling, Measuring and Prediction, pp. 299-312. , L. C. Wrobel and C. A. Brebbia (Eds.), Proceedings of the 1st International Conference on Water Pollution, (Southampton, 1991), Elsevier Applied Science, Computational Mechanics Publications; \n\nDuderstadt, J., Martin, W., (1979) Transport Theory, , Wiley, New York; \n\nDavison, B., (1957) Neutron Transport Theory, , Oxford University Press, London; \n\nLewis, E.E., Miller Jr., W.F., (1984) Computational Methods of Neutron Transport, , Wiley-Interscience, New York; \n\nFletcher, J.K., The Solution of the Multigroup Transport Equation Using Spherical Harmonics (1974) UKAEA TRG-Report-2547 (R), , United Kingdom Atomic Energy Agency, Risley; \n\nFletcher, J.K., Further Work on the Solution of the Static Multigroup Neutron Transport Equation Using Spherical Harmonics (1976) UKAEA TRG-Report-2849 (R), , United Kingdom Atomic Energy Agency, Risley; \n\nGelbard, E.M., (1961) Application of Spherical Harmonics Methods to Reactor Problems, , WAPD-T-1182, Bettis Atomic Power Laboratory; \n\nGelbard, E.M., (1961) Simplified Spherical Harmonics Equations and Their Use in Shielding Problems, , WAPD-T-1182, Bettis Atomic Power Laboratory; \n\nGelbard, E.M., (1962) Applications of the Simplified Spherical Harmonics Equations in Spherical Geometry, , WAPD-TM-294, Bettis Atomic Power Laboratory; \n\nLarsen, E.W., Morel, J.E., McGhee, J.M., Asymptotic Derivation of the Multigroup P1 and Simplified PN Equations with Anisotropic Scattering (1996) Nucl. Sci. Eng., 123, pp. 328-342; \n\nPomraning, G.C., Asymptotic and Variational Derivations of the Simplified PN Equations (1993) Ann. Nucl. Energy, 20, pp. 623-637; \n\nBrantley, P.S., Larsen, E.W., The Simplified P3 Approximation (2000) Nucl. Sci. Eng., 134, pp. 1-21; \n\nDetermination of absorbed dose in a patient irradiated by beams of X or gamma rays in radiotherapy procedures (1976) ICRU Report 24, , International Commission on Radiation Units and Measurements, ICRU Publications, Bethesda; \n\nPerez, C.A., Brady, L.W., (1997) Principles and Practice of Radiation Oncology, p. 13. , Lippincott-Raven Publishers, Philadelphia, third ed; \n\nArfken, G., (1985) Mathematical Methods for Physicists, p. 867. , Academic Press, San Diego, third ed; \n\nPhoton, Electron, Proton and Neutron Interaction Data for Body Tissues (1992) ICRU Report 46, , International Commission on Radiation Units and Measurements, ICRU Publications, Bethesda; \n\nHunt, M.A., Desobry, G.E., Fowble, B., Coia, L.R., Effect of low-density lateral interfaces on soft-tissue doses (1997) International Journal of Radiation Oncology Biology Physics, 37 (2), pp. 475-482. , DOI 10.1016/S0360-3016(96)00499-3, PII S0360301696004993; \n\nWong, J.W., Purdy, J.A., On methods of inhomogeneity corrections for photon transport (1990) Medical Physics, 17 (5), pp. 807-814. , DOI 10.1118/1.596555; \n\nJosef, J.A., Morel, J.E., Simplified spherical harmonic method for coupled electron-photon transport calculations (1998) Physical Review E - Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics, 57 (5 SUPPL. B), pp. 6161-6171; \n\nWhite, J.E., (1996) BUGLE-96: Coupled 47 Neutron, 20 Gamma-Ray Group Cross Section Library Derived from ENDF/B-VI for LWR Shielding and Pressure Vessel Dosimetry Applications, , RSICC Data Library Collection, DLC-185, Oak Ridge National Laboratory; \n\nDuderstadt, J.J., Hamilton, L.J., (1976) Nuclear Reactor Analysis, , Wiley, New York; \n\nCarlson, B.G., (1953) Solution of the Transport Equation by SN Approximations, , LA-1599, Los Alamos Scientific Laboratory; \n\nRhoades, W.A., Simpson, D.B., (1997) The TORT Three-Dimensional Discrete Ordinates Neutron/Photon Transport Code (TORT Version 3), , ORNL/TM-13221, Oak Ridge National Laboratory; \n\nLathrop, K.D., Ray Effects in Discrete Ordinates Equations (1968) Nucl. Sci. Eng., 32, pp. 357-369; \n\nLathrop, K.D., Remedies for Ray Effects (1971) Nucl. Sci. Eng., 45, pp. 255-268; \n\nDavis, J.A., Transport Error Bounds Via PN Approximations (1968) Nucl. Sci. Eng., 31, pp. 127-146; \n\nMark, J.C., (1947) The Spherical Harmonic Method, , Technical Report, CRT-340, Atomic Energy of Canada, Ontario; \n\nMarshak, R.E., Note on the Spherical Harmonic Method As Applied to the Milne Problem for a Sphere (1947) Phys. Rev., 71, pp. 443-446; \n\nDe Oliveira, C.R.E., Eaton, M.D., Umpleby, A.P., Pain, C.C., Finite element-spherical harmonics solutions of the 3D Kobayashi benchmarks with ray-tracing void treatment (2001) Progress in Nuclear Energy, 39 (2), pp. 243-261. , DOI 10.1016/S0149-1970(01)00015-4, PII S0149197001000154; \n\nBabuška, I., Zienkiewicz, O.C., Gago, J., Oliveira, E.R.De.A., (1986) Accuracy Estimates and Adaptive Refinements in Finite Element Computations, , John Wiley & Sons, Chichester; \n\nWareing, T.A., McGhee, J.M., Morel, J.E., Pautz, S.D., Discontinuous Finite Element SN Methods on Three-Dimensional Unstructured Grids (2001) Nucl. Sci. Eng., 138, pp. 256-268; \n\nDe Oliveira, C.R.E., ARBITRARY GEOMETRY FINITE ELEMENT METHOD FOR MULTIGROUP NEUTRON TRANSPORT WITH ANISOTROPIC SCATTERING (1986) Progress in Nuclear Energy, 18 (1-2), pp. 227-236; \n\nKeller, S.E., De Oliveira, C.R.E., Two-Dimensional C5G7 MOX Fuel Assembly Benchmark Calculations Using the FEM-PN Code EVENT (2001) Prog. Nucl. Energ., 39, pp. 243-261; \n\nMartin, W.R., Duderstadt, J.J., Finite Element Solutions of the Neutron Transport Equation with Applications to Strong Heterogeneities (1977) Nucl. Sci. Eng., 62, pp. 371-390; \n\nAckroyd, R.T., FINITE ELEMENT METHOD FOR NEUTRON TRANSPORT - 1. SOME THEORETICAL CONSIDERATIONS (1978) Annals of Nuclear Energy, 5 (2), pp. 75-94. , DOI 10.1016/0306-4549(78)90107-X; \n\nAckroyd, R.T., (1997) Finite Element Methods for Particle Transport: Applications to Reactor and Radiation Physics, , John Wiley & Sons, Chichester; \n\nBoman, E., Tervo, J., Vauhkonen, M., Modelling the transport of ionizing radiation using the finite element method (2005) Physics in Medicine and Biology, 50 (2), pp. 265-280. , DOI 10.1088/0031-9155/50/2/006; \n\nGifford, K.A., Horton Jr., J.L., Wareing, T.A., Failla, G., Mourtada, F., Comparison of a finite-element multigroup discrete-ordinates code with Monte Carlo for radiotherapy calculations (2006) Phys. Med. Biol., 51, pp. 2253-2265; \n\nTervo, J., Kolmonen, P., Vauhkonen, M., Heikkinen, L.M., Kaipio, J.P., A finite-element model of electron transport in radiation therapy and a related inverse problem (1999) Inverse Probl., 15, pp. 1345-1361; \n\nTervo, J., Kolmonen, P., Inverse radiotherapy treatment planning model applying Boltzmann-transport equation (2002) Math. Mod. Meth. Appl. S., 12, pp. 109-141; \n\nHammersley, J.M., Handscomb, D.C., (1964) Monte Carlo Methods, , John Wiley & Sons, New York; \n\nDupree, S.A., Fraley, S.K., (2002) A Monte Carlo Primer: A Practical Approach to Radiation Transport, , Kluwer Academic, New York; \n\nKinsey, R., (1979) Data Formats and Procedures for the Evaluated Nuclear Data File, ENDF, , BNL-NCS-50496, Brookhaven National Laboratory; \n\nBriesmeister, J.F., (2000) MCNP - A General Monte Carlo N-Particle Transport Code, Version 4C, , LA-13709 M, Los Alamos National Laboratory; \n\nBielajew, A.F., Hirayama, H., Nelson, W.R., Rogers, D.W.O., (1994) History, Overview and Recent Improvements of EGS4, , Technical Report PIRS-0436, National Research Council of Canada; \n\nKawrakow, I., Rogers, D.W.O., (2000) The EGSnrc Code System: Monte Carlo Simulation of Electron and Photon Transport, , Technical Report PIRS-701, National Research Council of Canada; \n\nRogers, D.W.O., Fifty years of Monte Carlo simulations for medical physics (2006) Phys. Med. Biol., 51, pp. 287-301; \n\nJeraj, R., Keall, P.J., Ostwald, P.M., Comparisons between MCNP, EGS4 and experiment for clinical electron beams (1999) Physics in Medicine and Biology, 44 (3), pp. 705-717. , DOI 10.1088/0031-9155/44/3/013, PII S0031915599941192; \n\nSolberg, T.D., DeMarco, J.J., Chetty, I.J., Mesa, A.V., Cagnon, C.H., Li, A.N., Mather, K.K., Smathers, J.B., A review of radiation dosimetry applications using the MCNP Monte Carlo code (2001) Radiochimica Acta, 89 (4-5), pp. 337-355; \n\nAgostinelli, S., GEANT4 - A simulation toolkit (2003) Nucl. Instrum. Meth., A 506, pp. 250-303; \n\nEnger, S.A., Af, R.P.M., Rezaei, A., Lundqvist, H., Monte Carlo calculations of thermal neutron capture in gadolinium: A comparison of GEANT4 and MCNP with measurements (2006) Medical Physics, 33 (2), pp. 337-341. , DOI 10.1118/1.2150787; \n\nWoodcock, E.R., Murphy, T., Hemmings, P.J., Longworth, S.C., Techniques used in the GEM code for Monte Carlo neutronics calculations in reactors and other systems of complex geometries (1965) Proceedings of the Conference on Applications of Computing Methods to Reactor Problems, p. 557. , ANL-7050, Argonne National Laboratory; \n\nLeppänen, J., A new assembly-level Monte Carlo neutron transport code for reactor physics calculations (2005) Proceedings of the International Topical Meeting on Mathematics and Computation, Supercomputing, Reactor Physics and Nuclear and Biological Applications, p. 12. , American Nuclear Society, on CD-ROM; \n\nZweifel, P.F., (1973) Reactor Physics, , McGraw-Hill, New York; \n\nLamarsh, J.R., (1972) Introduction to Nuclear Reactor Theory, , Addison-Wesley, Reading; \n\nZamenhof, R.G., Redmond II, E., Solares, G., Katz, D., Riley, K., Kiger, S., Harling, O., Monte Carlo-based treatment planning for boron neutron capture therapy using custom designed models automatically generated from CT data (1996) International Journal of Radiation Oncology Biology Physics, 35 (2), pp. 383-397. , DOI 10.1016/0360-3016(96)00084-3; \n\nGoorley, T., McKinney, G., Adams, K., Estes, G., MCNP enhancements, parallel computing, and error analysis for BNCT (2001) Frontiers in Neutron Capture Therapy, pp. 599-604. , M. F. Hawthorne, K. Shelly and R. J. Wiersema (Eds.), Kluwer Academic, New York; \n\nCheng, J.H., Finnigan, P.M., Hathaway, A.F., Kela, A., Schroeder, W.J., Quadtree/Octree Meshing with Adaptive Analysis (1988) Numerical Grid Generation in Computational Fluid Mechanics, pp. 633-642. , Pineridge Press, Swansea; \n\nHackbusch, W., (1985) Multi-grid Methods and Applications, , Springer, Berlin; \n\nWesseling, P., (1992) An Introduction to Multigrid Methods, , Wiley, New York; \n\nBrandt, A., Multi-level adaptive solutions to boundary-value problems (1977) Math. Comput., 31, pp. 333-390; \n\nBrantley, P.S., Tomašević, D.I., Spatially continuous mixed simplified P2-P1 solutions for multidimensional geometries (2005) Proceedings of the International Topical Meeting on Mathematics and Computation, Supercomputing, Reactor Physics and Nuclear and Biological Applications, p. 10. , American Nuclear Society, on CD-ROM; \n\nPrinsloo, R., Tomašević, D.I., Albornoz, F., Brantley, P.S., Application of SP2 and the spatially continuous SP 2-P1 equations to the PBMR reactor (2005) Proceedings of the International Topical Meeting on Mathematics and Computation, Supercomputing, Reactor Physics and Nuclear and Biological Applications, p. 8. , American Nuclear Society, on CD-ROM; \n\nBrantley, P.S., A mixed P1-DP0 diffusion theory for planar geometry (2005) Ann. Nucl. Energy, 32, pp. 1525-1545; \n\nLongoni, G., Haghighat, A., The Even-Parity Simplified SN Equations Applied to a MOX Fuel Assembly Benchmark Problem on Distributed Memory Environments (2004) PHYSOR 2004 - The Physics of Fuel Cycles and Advanced Nuclear Systems: Global Developments, , American Nuclear Society on CD-ROM; \n\nLongoni, G., (2004) Advanced Quadrature Sets, Acceleration and Preconditioning Techniques for the Discrete Ordinates Method in Parallel Computing Environments, p. 202. , Ph.D. thesis, University of Florida UF Online Dissertations; \n\nLongoni, G., Haghighat, A., Sjoden, G., A new synthetic acceleration technique based on the simplified even-parity SN equations (2004) Transport Theory and Statistical Physics, 33 (3-4), pp. 347-360. , DOI 10.1081/TT-200051946, Comprised of Refereed Papers Based on Presentations at the Eighteenth International Conference on Transport Theory - Part I; \n\nLongoni, G., Haghighat, A., Yi, C., Sjoden, G., Benchmarking of PENTRAN-SSN Parallel Transport Code and FAST Preconditioning Algorithm Using the VENUS-2 MOX-Fueled Benchmark Problem (2006) J. ASTM Int., 3 (ISSUE 7), p. 10; \n\nLillie, R.A., GRTUNCL3D: A Discontinuous Mesh Three-Dimensional First Collision Source Code (1998) Proceedings of the ANS Radiation Protection and Shielding Division Topical Conference, pp. 368-375. , American Nuclear Society; \n\nWareing, T.A., Morel, J.E., Parsons, D.K., A First Collision Source Method For ATTILA, An Unstructured Tetrahedral Mesh Discrete Ordinates Code (1998) Proceedings of the ANS Radiation Protection and Shielding Division Topical Conference, pp. 376-382. , American Nuclear Society; \n\nBjugg, H., (2000) BNCT-annossuunnittelun Teoreettiset Perusteet, p. 64. , M.Sc. thesis (in Finnish), University of Helsinki; \n\nRhoades, W.A., Childs, R.L., The DORT Two-Dimensional Discrete Ordinates Transport Code (1988) Nucl. Sci. Eng., 99, pp. 88-89; \n\nHiismäki, P. and Auterinen, I., Patent FI-92890 (1995); Tissue Substitutes in Radiation Dosimetry and Measurement (1989) ICRU Report 44, , International Commission on Radiation Units and Measurements, ICRU Publications, Bethesda; \n\nKnoll, G.F., (1988) Radiation Detection and Measurement, , John Wiley &Sons, New York; \n\nKaita, K., (1996) Characterisation of the Epithermal Neutron Beam at the Triga BNCT-station Using Activation Detectors, p. 65. , M.Sc. in Engineering thesis, Helsinki University of Technology + appendices; \n\nSerén, T., A Tale of Two Beams - Comparison of the Radiation Fields at the BMRR and FiR 1 Epithermal BNCT Facilities (1999) Med. Biol. Eng. Comput., 37, pp. 396-397; \n\nSerén, T., Auterinen, I., Seppälä, T., Kotiluoto, P., Spectrum measurements and calculations in the epithermal neutron beam at the FiR 1 BNCT facility (1999) VTT Symposium, 197, pp. 167-179. , Proceedings of the 15th European TRIGA Conference, VTT, Espoo; \n\nSerén, T., Kotiluoto, P., Auterinen, I., Correct Treatment of Covers in Adjustment of Epithermal Neutron Spectra (2006) Advances in Neutron Capture Therapy 2006, pp. 474-477. , International Society for Neutron Capture Therapy; \n\nAuterinen, I., Seren, T., Uusi-Simola, J., Kosunen, A., Savolainen, S., A toolkit for epithermal neutron beam characterisation in BNCT (2004) Radiation Protection Dosimetry, 110 (1-4), pp. 587-593. , DOI 10.1093/rpd/nch151, Advances in Nuclear Particle Dosimetry for Radiation Protection and Medicine; \n\nKosunen, A., (1999) Metrology and Quality of Radiation Therapy Dosimetry of Electron, Photon and Epithermal Neutron Beams, p. 50. , Ph.D. thesis, STUK-A164, STUK - Radiation and Nuclear Safety Authority, + appendices; \n\nAschan, C., (1999) Applicability of Thermoluminescent Dosimeters in X-ray Organ Dose Determination and in the Dosimetry of Systemic and Boron Neutron Capture Radiotherapy, p. 31. , Ph.D. thesis, University of Helsinki Report Series in Physics, HU-P-D77 + appendices; \n\nUusi-Simola, J., (2002) Microdosimetry and Its Application in Epithermal Neutron Beam, p. 70. , M.Sc. thesis, University of Helsinki; \n\nKosunen, A., Kortesniemi, M., Yla-Mella, H., Seppala, T., Lampinen, J., Seren, T., Auterinen, I., Savolainen, S., Twin ionisation chambers for dose determinations in phantom in an epithermal neutron beam (1999) Radiation Protection Dosimetry, 81 (3), pp. 187-194; \n\nBinns, P.J., An international dosimetry exchange for boron neutron capture therapy, Part I: Absorbed dose measurements (2005) Med. Phys., 32, pp. 3729-3736; \n\nUusi-Simola, J., Seren, T., Seppala, T., Kosunen, A., Auterinen, I., Savolainen, S., Dosimetric comparison at FiR 1 using microdosimetry, ionisation chambers and computer simulation (2004) Applied Radiation and Isotopes, 61 (5), pp. 845-848. , DOI 10.1016/j.apradiso.2004.05.040, PII S0969804304003367; \n\nAuterinen, I., Seren, T., Anttila, K., Kosunen, A., Savolainen, S., Measurement of free beam neutron spectra at eight BNCT facilities worldwide (2004) Applied Radiation and Isotopes, 61 (5), pp. 1021-1026. , DOI 10.1016/j.apradiso.2004.05.035, PII S0969804304003306; \n\nUusi-Simola, J., Savolainen, S., Kangasmaki, A., Heikkinen, S., Perkio, J., Abo, R.U., Seppala, T., Auterinen, I., Study of the relative dose-response of BANG-3® polymer gel dosimeters in epithermal neutron irradiation (2003) Physics in Medicine and Biology, 48 (17), pp. 2895-2906. , DOI 10.1088/0031-9155/48/17/310, PII S0031915503634275; \n\nAschan, C., Toivonen, M., Savolainen, S., Seppala, T., Auterinen, I., Epithermal neutron beam dosimetry with thermoluminescence dosemeters for boron neutron capture therapy (1999) Radiation Protection Dosimetry, 81 (1), pp. 47-56; \n\nAuterinen, I., Seren, T., Kotiluoto, P., Uusi-Simola, J., Savolainen, S., Quality assurance procedures for the neutron beam monitors at the FiR 1 BNCT facility (2004) Applied Radiation and Isotopes, 61 (5), pp. 1015-1019. , DOI 10.1016/j.apradiso.2004.05.034, PII S096980430400329X; \n\nWilliams, J.R., Thwaites, D.I., (1993) Radiotherapy Physics in Practice, , Oxford University Press; \n\nWilliamson, J.F., Perera, H., Li, Z., Lutz, W.R., Comparison of calculated and measured heterogeneity correction factors for 125I, 137Cs, and 192Ir brachytherapy sources near localized heterogeneities (1993) Med. Phys., 20, pp. 209-222; \n\nDas, R.K., Validation of Monte Carlo dose calculations near 125I sources in the presence of bounded heterogeneities (1997) Int. J. Radiat. Oncol. Biol. Phys., 38, pp. 843-853; \n\nKirov, A.S., Williamson, J.F., Meigooni, A.S., Zhu, Y., Measurement and calculation of heterogeneity correction factors for an Ir- 192 high dose-rate brachytherapy source behind tungsten alloy and steel shields (1996) Medical Physics, 23 (6), pp. 911-919. , DOI 10.1118/1.597733; \n\nLorence Jr., L.J., Morel, J.E., Valdez, G.D., (1989) Physics Guide to CEPXS: A Multigroup Coupled Electron-photon Cross-section Generating Code, , SAND89-1685, Sandia National Laboratory; \n\nLuxton, G., Jozsef, G., Radial dose distribution, dose to water and dose rate constant for monoenergetic photon point sources from 10 keV to 2 MeV: EGS4 Monte Carlo model calculation (1999) Medical Physics, 26 (12), pp. 2531-2538. , DOI 10.1118/1.598790; \n\nNelson, W.R., Hirayama, H., Rogers, D.W.O., (1985) The EGS4 Code System, , SLAC-265, Stanford Linear Accelerator Center; \n\nHartmann, S.C.L., Walling, R.S., Daly, T.P., Faddegon, B., Albright, N., Bergstrom, P., Bielajew, A.F., Verhey, L.J., Description and dosimetric verification of the PEREGRINE Monte Carlo dose calculation system for photon beams incident on a water phantom (2001) Medical Physics, 28 (7), pp. 1322-1337. , DOI 10.1118/1.1381551; \n\nBoudreau, C., Heath, E., Seuntjens, J., Ballivy, O., Parker, W., IMRT head and neck treatment planning with a commercially available Monte Carlo based planning system (2005) Physics in Medicine and Biology, 50 (5), pp. 879-890. , DOI 10.1088/0031-9155/50/5/012; \n\nTakeda, T., Tamitani, M., Unesaki, H., (1988) Proposal of 3-D Neutron Transport Benchmark Problems, , NEACRP A-953 Rev. 1, OECD/NEA Committee on Reactor Physics; \n\nTakeda, T., Ikeda, H., (1991) 3-D Neutron Transport Benchmarks, , NEACRPL-330, OECD/NEA Committee on Reactor Physics; \n\nHan, C.Y., Shin, C.-H., Kim, H.-C., Kim, J.K., Messaoudi, N., Na, B.-C., (2004) VENUS-2 MOX-fuelled Reactor Dosimetry Calculations, Benchmark Specification, , NEA/NSC/DOC(2004)6, OECD/NEA Nuclear Science Committee; \n\n(2006) VENUS-2 MOX-fuelled Reactor Dosimetry Calculations, Final Report, , OECD NEA, NEA/NSC/DOC(2005)22, OECD/NEA Nuclear Science Committee; \n\nKotiluoto, P., Wasastjerna, F., VENUS-2 MOX-fuelled reactor dosimetry benchmark calculations at VTT (2005) Proceedings of the International Topical Meeting on Mathematics and Computation, Supercomputing, Reactor Physics and Nuclear and Biological Applications, p. 12. , American Nuclear Society, on CD-ROM; \n\nZsolnay, É.M., Szondi, E.J., Nolthenius, H.J., (1999) The Neutron Metrology File NMF-90, , IAEA-NDS-171, Rev. 1, International Atomic Energy Agency; \n\nLeenders, L., (1988) LWR-PVS Benchmark Experiment VENUS-3 (With Partial Lenght Shielded Assemblies), , FCP/VEN/01, SCK, CEN; \n\n(2000) Prediction of Neutron Embrittlement in the Reactor Pressure Vessel, , OECD NEA, NEA/NSC/DOC(2000)5, OECD/NEA Nuclear Science Committee; \n\nLewis, E.E., Palmiotti, G., Taiwo, T.A., Smith, M.A., Tsoulfanidis, N., (2003) Benchmark Specification for Deterministic MOX Fuel Assembly Transport Calculations Without Spatial Homogenisation (3-D Extension C5G7 MOX), , NEA/NSC/DOC(2003)6, OECD/NEA Nuclear Science Committee; \n\nKotiluoto, P., The new deterministic 3-D radiation transport code MultiTrans: C5G7 MOX fuel assembly benchmark Proceedings of the International Conference on Supercomputing in Nuclear Applications, Paris, France (2003), p. 7. , on CD-ROM; \n\nHaghighat, A., Recent Advances in Hybrid Methods Applied to Neutral Particle Transport Problems Proceedings of the International Nuclear Atlantic Conference - INAC 2005, Santos, Brazil (2005), p. 24; \n\nHaghighat, A., Wagner, J., Monte Carlo Variance Reduction with Deterministic Importance Functions (2003) Prog. Nucl. Energ., 42, pp. 25-53; \n\nWagner, J., Haghighat, A., Automated Variance Reduction of Monte Carlo Shielding Calculations Using the Discrete Ordinates Adjoint Function (1998) Nucl. Sci. Eng., 128, pp. 186-192", "hasCitationDuplums" : false, "userChangeableUntil" : "2019-01-31T22:59:00.000+0000", "publishDate" : "2018-09-12T15:26:31.000+0000", "directInstitutesForSort" : "", "ownerAuthorCount" : 2, "ownerInstituteCount" : 19, "directInstituteCount" : 0, "authorCount" : 1, "contributorCount" : 0, "hasQualityFactor" : false, "link" : "/api/publication/27649502", "label" : "Kotiluoto P. Adaptive tree multigrids and simplified spherical harmonics approximation in deterministic neutral and charged particle transport. (2007) VTT PUBLICATIONS 1235-0621 2242-1203 639 3-106", "template" : "