- File Upload Page -
Deadline January 24, 2008
STEP 1
Identify your presentation in the list below. It is sorted by Session and Presentation Number. Click on your presentation to go to the upload page. Follow the instructions on that page to upload your powerpoint file.
| MAM-A.1 Thomas R. H.: The Three B's: Before, Berkeley,and Beyond |
| MAM-A.2 Ipe N.E.: Particle Accelerators in Particle Therapy Facilities: The New Wave |
| MAM-A.3 Braby L.: Health Physics Needs for Accelerator Based Homeland Security Cargo Imaging Systems |
| MAM-A.4 Rokni S: Recent Radiation Safety Advances at R&D Accelerators and Future Needs |
| MAM-A.5 Current M. I.: Ion Implantation for Fabrication of Semiconductor Materials and Devices |
| MPM-A.1 Otto Th.: Health Physics Challenges of New Accelerator Initiatives |
| MPM-A.2 Job P: Shielding Requirements For NSLS-II |
| MPM-A.3 Sanami T.S: Radiation Safety Analysis for high gradient laser acceleration test facility (E163) |
| MPM-A.4 Mao S: The Linac Coherent Light Source at SLAC and Its Radiological Considerations |
| MPM-A.5 Kelsey C.T.: CINDER 90 Calculations for the Materials Test Station |
| MPM-A.6 Ruth R. D.: The Compact Light Source: A Miniature Synchrotron |
| MPM-A.7 Ruth R. D.: The Compact Light Source: A Miniature Synchrotron |
| MPM-A.8 Ruth R. D.: The Compact Light Source: A Miniature Synchrotron |
| MPM-A.9 Kestell D: Laser Wakefield Accelerator Research At LBNL |
| MPM-A.10 Freeman D: The Spallation Neutron Source x{2013} Overview of Initial Operations |
| MPM-A.11 Singh M. S.: A Review OF Photo- And Proton-Induced Statistical Neutrons Generated By High-Intensity Laser Matter Interactions |
| MPM-A.12 Bramble J. R.: Development of the LBNL 88-Inch Cyclotron neutron beamline |
| MPM-A.13 Bauer J. M.: Radiological Safety Analysis for SABER, a Proposed New Experimental Facility at SLAC |
| MPM-B.1 Mokhov N.V.: Challenges, Advances and Future Needs in Shielding Code Developments |
| MPM-B.2 Marceau-Day M.L.: Comparison of Bremsstrahlung Dose Calculations with Al2O3 Measurements |
| MPM-B.3 Baker S. I.: Accelerator Ion Source Shielding Cask Final Design |
| MPM-B.4 Elder D. H.: Skyshine Radiation - An Overview of the Literature |
| MPM-B.5 Chen H.L.: RADIATION SHIELDING ANALYSIS of HOSPITAL-BASED MEDICAL RADIOPHARMACEUTICAL CYCLOTRON FACILITIES |
| MPM-B.6 Sawkey DL: Monte Carlo design of leakage-reducing retrofit for medical linac electron applicator |
| MPM-B.7 Guo F: A Shielding Design And Post-Installation Verification For A Tomotherapy Radiation Treatment Machine |
| MPM-B.8 Banghart D: Is More Pb the Answer in a Changing Medical Environment? |
| MPM-B.9 Prinz A. A.: Shielding Design for the Synchrotron-Radiation Beamline BL4 at SSRL |
| MPM-B.10 Masukawa F: Radiation Safety Design of the J-PARC Linac and 3-GeV Synchrotron |
| MPM-B.11 Chichester D: Design of a Test Vault for Compact Accelerator Sealed Tube Neutron Generator Operations |
| MPM-B.12 Kelsey C.T.: Radiation Safety Design for the Materials Test Station |
| MPM-B.13 Stichelbaut F: Reduction of Concrete Activation around PET Cyclotrons using Local Shielding Doors |
| TAM-A.1 McLean Tom D: Field Evaluation of a Portable High-Energy Neutron (En>20 MeV) Dose Meter |
| TAM-A.2 Elick D: Impact of 10CFR835 Neutron Radiation Weighting Factors on Neutron Reference Fields and Calibration |
| TAM-A.3 Piper RK: Characterization and Traceability of 60 keV Photon RGDs at the Pacific Northwest National Laboratory |
| TAM-A.4 Brown D: Using Shewhart Charts, An SPC Technique In Assessing Portable Survey Detector Instrument Health |
| TAM-A.5 Murphy MK: Two Potentially Significant Sources of Neutron RGD Dose Rate Bias: Cf-250 Component in Cf-252 Sources and Fluctuating Survey Meter Sensitivity |
| TAM-A.6 Brogonia H.: Stanford Linear Accelerator Center Radioanalysis Laboratory Operations |
| TAM-A.7 Rushton R.O.: Advances in Automation in Instrument Calibration |
| TAM-A.8 Keith LS: NACLA Recognition for the HPS Lab Accreditation Program |
| TAM-A.9 Radev R.: Dose Response of Several Standard Neutron Meters at Various Energies |
| TAM-A.10 McLean T D: Intercomparison of Selected Rem Meters and Dosimeters in High-Energy Neutron Fields |
| TAM-A.11 Grasseschi J: Alpha/Beta Counting System, w/Radon-thoron Compensation |
| TAM-A.12 Wang C: Monte Carlo Simulation of a GEM-based TEPC for Its Response to High Energy Neutrons |
| TAM-B.1 McBurney R. E.: Regulation of Radiation Generating Devices: Challenges and Approaches for State Radiation Control Programs |
| TAM-B.2 White D: Status Update for Implementation of NRC Regulatory Authority of NARM |
| TAM-B.3 DIBBLEE MG: A Unique Approach To Licensing Accellerators: The Hybrid License |
| TAM-B.4 Rushton R.O.: An Overview of International Activities in Instrument Calibration |
| TAM-B.5 Voytchev M.: IEC International Standards Under Development On Radiation-Generating Devices |
| TAM-B.6 Chapman J.A.: Implication of the Amended 10CFR835 Neutron Weighting Factors on Detector Calibration and Design |
| TAM-C.1 Degtiarenko P: Managing Environmental Radiation at CEBAF: Lessons Learned |
| TAM-C.2 AWEDA M. A.: MEASUREMENT OF PRE-OPERATIONAL RADIATION EXPOSURE LEVEL AT THE LINAC CENTRE OF THE LAGOS UNIVERSITY TEACHING HOSPITAL, NIGERIA |
| TAM-C.3 Draine A. E.: Decontamination of Medical Radioisotopes from Hard Surfaces using Peelable Polymer-Based Decontamination Agents |
| TAM-C.4 Vaziri K: Diffusion Properties Of Tritium In The NuMI Decay Pipe Concrete |
| TAM-C.5 Moeller MP: GROSS ALPHA MONITORING AT THE HANFORD SITE x{2013} HISTORICAL PERSPECTIVES |
| TAM-C.6 Cossairt J. D.: A Model for Estimating Radionuclide Concentrations in the Fermilab Industrial Cooling Water System |
| TAM-C.7 Tran H: Methodology to Evaluate the Public Dose due to Radioactive Airborne Releases (NESHAPs) from various Facilities of the Stanford Linear Accelerator Center (SLAC) |
| TPM-A.1 Morris CL: Tomographic Imaging with Cosmic Ray Muons |
| TPM-A.2 Cox M: ANSI N42.37 THE DEPARTMENT OF HOMELAND SECURITY TRAINING STANDARD ansi n42.37 the department of homeland security training standard |
| TPM-A.3 Chiaro P: A Mobile Truck Monitoring System |
| TPM-A.4 Uckan T: Use of Californium-252 Neutron Sources for a Continuous Monitoring of Uranium-235 Mass Flow |
| TPM-A.5 Ozcan I: Reducing Radiation Exposures When Operating Active, Non-Intrusive Inspection Systems |
| TPM-A.6 Fyffe J: Development of a Field Deployable, NVLAP Accredited, Real-time Dosimetry System |
| TPM-A.7 Burgett Eric: Shielding Modeling, Design and Validation around an 10-MV X-Ray Cargo Container Inspector |
| TPM-A.8 Doshi A. P.: Air Cargo Explosives Detection Pilot Program (ACEDPP) |
| TPM-B.1 Mettler FA: Medical Radiation Exposure in the United States: 2006 |
| TPM-B.2 Elder D. H.: The Diagnostic and Therapeutic Uses of Ionizing Radiation at the Colorado State University Veterinary Medical Center |
| TPM-B.3 Vermeere W.: Epi-Rad90 Epiretinal Delivery Device |
| TPM-B.4 Turner C.: Review of the Radiation Safety Aspects of a Handheld X-ray System for Use in the Healing Arts |
| TPM-B.5 Turner C.: Review of the Radiation Safety Aspects of a Handheld X-ray System for Use in the Healing Arts |
| TPM-B.6 Stichelbaut F: Shielding Studies for a Carbon Therapy System |
| TPM-B.7 Stichelbaut F: Production of Impurities in a C-12 Ion Beam Traversing an Energy Degrader |
| TPM-B.8 Sorensen T.: Radiation Safety Aspects of the Cyberknife Stereotactic Radiosurgery System |
| TPM-B.9 Huntzinger C: Developments in External Beam Radiation Therapy & Radiosurgery |
| P.1 Miller J: Improved Geometry and Utilization of Ge/Ga-68 for Dose Calibrator Reference Sources |
| P.2 Velarde skv: Shielding and Internal Scattering in a Digital Radiography Cabinet |
| P.3 Neeraj K.: Safety Assessment of Mobile Phone: Research Needs |
| P.4 Potter W. E.: Comparison Of Long Double Precision Computer Solution For Decision Levels And Detection Limits With The Poisson-Normal Approximation When The Ratio Of The Blank Count Time To The Sample Count Time Is An Integer |
| P.5 Blute J: What an RSO Needs to Know about Portable XRF Analyzers |
| P.6 Rahman M. S.: Body Radioactivity and Radiation Dose from K-40 in Bangladeshi Subjects Measured With a Whole-Body Counter |
| P.7 Jue T: Performance Evaluation of Whole Body Count Measurements by the Marshall Islands Radiological Surveillance Program (2002-2005) |
| P.8 Yamamura Seini: A New Radiation Monitoring System for the High Intensify Proton Accelator Facility,J-PARC |
| P.9 Grosam S.: Dose Measurements At The Pre-Accelerator Section Of The GSI Unilac |
| P.11 Ozcan I: Health Physics Challenges Involving Active, Non-Intrusive Inspection Systems |
| P.12 May R: Update of Electron Accelerator Be-7 Production, Associated Problems, and Proposed Remedy |
| P.13 Walker L: Practical RCT Energized Worker Electrical Training |
| P.14 Walker L: The Response Change of Radiation Detection Instrumentation to a Magnetic Field Update |
| WAM-A.1 Anderson Jr. J.E.: Accelerator Safety Interlock Systems - Past, Present and Future |
| WAM-A.2 Espinoza E: Updated Design Basis for the LANSCE Radiation Security System (RSS) |
| WAM-A.3 Sturrock J: Use of Computers in LANSCE Radiation Security System |
| WAM-A.4 Hall M: LANSCE Experimental Personnel Access Control System (EPACS) |
| WAM-A.5 Santana Leitner M: Radiological Studies for the LCLS Beam Abort System |
| WAM-A.6 Mahoney K: Programmable Safety PLCs and Their Use in Accelerator Safety Applications |
| WAM-B.1 Nakamura T: Challenges and Advances in Neutron Spectroscopy |
| WAM-B.2 Kerimbaev M: Performance Comparison between NaI and HPGe Gamma Spectroscopy Systems for the Purpose of Radioactive Waste Drum Characterization at SLAC |
| WAM-B.3 Bauer J. M.: Simulation versus Reality: An Activation Experiment at SLAC |
| WAM-B.4 Brodsky A.: Optimizing Detector Designs for Fast Neutron Dosimetry |
| WAM-B.5 Olsher R. H.: HIGH-ENERGY NEUTRON DOSE MEASUREMENT: A 20-YEAR PERSPECTIVE |
| WAM-B.6 Olsher R. H.: HIGH-ENERGY NEUTRON DOSE MEASUREMENT: A 20-YEAR PERSPECTIVE |
| WAM-B.7 Walker L: High Energy Activation Foil Neutron Spectral Unfolding |
| WAM-C.1 Hertel N: Accelerator Dosimetry: Past, Present and Future Needs |
| WAM-C.2 Desrosiers A. E.: Testing Recognition of Protective Action Guidance by Emergency Responder |
| WAM-C.3 Shannon M.: An Approach to Dosimetry for High-Energy Bremsstrahlung Systems Operating in Outdoor Environments |
| WAM-C.4 Hickman D.P.: The Usefulness of Accelerator Mass Spectrometry in Retrospective Dosimetry Studies |
| WAM-C.5 Butala Stephen: Reduction in Personnel Dosimetry Requirements at Argonne APS |
| WAM-C.6 Wood-Zika A.R.: Utilization of Accelerator Mass Spectrometry in a Real Time Occupational Internal Dosimetry Program |
| WAM-C.7 Day D.F.: Synchrotron Radiation -a Potential Tool for Radiation Biology Studies. |
| WAM-C.8 Hamilton T.F.: Urinary Excretion of Plutonium Isotopes Based on Accelerator Mass Spectrometry: Baseline Measurements from the Marshall Islands |
| WAM-C.9 Hamilton T.F.: Improved Methodology for Assessing Workplace Uranium Intakes Based on Accelerator Mass Spectrometric Measurements of Uranium-236 (U-236) |
| WAM-C.10 Homnick JM: Evaluation of Aluminum-oxide (Al2O3:C) Optically Stimulated Luminescence (OSL) Dosimeters as a Potential Alternative to Thermoluminescent Dosimeters (TLDs) for Remote Dosimetry Services |
| WAM-C.11 Axelrod S.: Dosimetry of the Axxent Electronic Brachytherapy System |
| WPM-A.1 Frey SRF: Operational Health Physics Session Welcome |
| WPM-A.2 Ficklen C: Associated Non-Radiological Hazards From Accelerator Operations |
| WPM-A.3 Mei G: Radiological Safety Evaluation of RGDs at ORNL |
| WPM-A.4 Penland S. L.: Failed Gamma Beam Irradiator |
| WPM-A.5 Sprague D.: Can One Size Fit All? An Integrated Approach to Radiation Generating Device Safety Training UCRL-ABS-233183 |
| WPM-A.6 Goettert J.: Microfabrication Beamlines at the Center for Advanced Microstructures and Devices {CAMD} |
| WPM-A.7 Lovato L: Operational Health Physics Of a Medical Radionuclide Production Facility |
| WPM-A.8 Duran M: Elevated Doser Rate Condition at LANSCE Ultra Cold Neutron Facility |
| WPM-A.9 Lautenschlager G: The Process of Repairing a Highly Activated NuMI Horn |
| WPM-A.10 Jacob N: Radiation Safety and other Aspects of the Gamma Knife Reload |
| WPM-A.11 Torres M: Extremity Exposure While Working With Cladding Samples |
| WPM-A.12 Allen J: Health Physics Challenges Of Maintaining A Cyclotron With Light And Heavy Ion Beams In The Modern Regulatory Climate |
| WPM-A.13 Fairchild II R. F.: Development and management of an X-ray Safety Program |
| WPM-B.1 Stichelbaut F: Design of High Performance X-Ray Irradiation Systems |
| WPM-B.2 Heo S: Microfocus X-Ray Tube using Carbon Nanotube Point Electron Emitters |
| WPM-B.3 Gumnick J: Portable X-ray Radiography at a Nuclear Power Plant |
| WPM-B.4 Heo S: Microfocus X-Ray Tube using Carbon Nanotube Point Electron Emitters |
| WPM-B.5 Johnson R.: Deficiencies Identified from Audits of Industrial X-ray Machines and Radiography Facilties |
| WPM-B.6 Blute J: What an RSO Needs to Know about Portable XRF Analyzers |
| WPM-C.1 May R: The Morphology of a Research Accelerator |
| WPM-C.2 Stoyer N.J.: Accelerator Production of Superheavy Elements |
| WPM-C.3 Cubbon G: Radiological Aspects of Commissioning a Synchrotron Beamline at the Canadian Light Source |
| WPM-C.4 Donahue R: Advancing the Advanced Light Source (ALS) Through Top-off Operations |
| WPM-C.5 Day L: Implications of Accelerator based Nano-Particle Material Research |
| WPM-C.6 Lee H.S.: High Energy Radiation Facility using electron linac and its Applications at PAL |