ILSC 2011 Paper #901 (Manifestations of the Strong Non-Linearity of Thermal Injury)
Manifestations of the Strong Non-Linearity of Thermal Injury
Authors:
Karl Schulmeister, Seibersdorf Laboratories; Seibersdorf Austria
Mathieu Jean, Seibersdorf Laboratories; Seibersdorf Austria
Presented at ILSC 2011
TBA$28.00
ILSC 2011 Paper #804 (Skin Damage Thresholds with Continuous-Wave Laser Exposures at Near Infrared Wavelengths)
Skin Damage Thresholds with Continuous-Wave Laser Exposures at Near Infrared Wavelengths
Authors:
Jeffrey W. Oliver, Air Force Research Laboratory, AFRL/711 HPW/RHDO; Cedar Park TX USA
Corey A. Harbert, TASC, Inc.; San Antonio TX
Harvey M. Hodnett, TASC, Inc.; San Antonio TX
Gary D. Noojin, TASC, Inc.; San Antonio TX
Kurt J. Schuster, TASC, Inc.; San Antonio TX
Aurora D. Shingledecker, TASC, Inc.; San Antonio TX
David J. Stolarski, TASC Inc.; San Antonio TX
Presented at ILSC 2011
Damage thresholds (ED50) for skin using Yucatan mini-pig (Sus scrofa domestica) have been determined at the operational wavelength of ...$28.00
ILSC 2011 Paper #803 (Minimum Visible Lesion (MVL) Thresholds in Cynomolgus (Macaca Fasicularis) Retina Resulting from Laser Exposure at Wavelengths of 413-nm, 532-nm and 647-nm)
Minimum Visible Lesion (MVL) Thresholds in Cynomolgus (Macaca Fasicularis) Retina Resulting from Laser Exposure at Wavelengths of 413-nm, 532-nm and 647-nm
Authors:
Jeffrey W. Oliver, Air Force Research Laboratory, AFRL/711 HPW/RHDO; Cedar Park TX USA
Benjamin A. Rockwell, Air Force Research Laboratory, AFRL/711 HPW/RHDO; Brooks City-Base TX USA
Semih S. Kumru, Air Force Research Laboratory, AFRL/711 HPW/RHDO; Brooks City-Base TX USA
Clifton D. Clark, TASC, Inc.; San Antonio TX USA
Harvey M. Hodnett, TASC, Inc.; San Antonio TX USA
Gary D. Noojin, TASC, Inc.; San Antonio TX USA
Kurt J. Schuster, TASC, Inc.; San Antonio TX USA
<...$28.00
ILSC 2011 Paper #802 (Characterizing Temperature-Dependent Photo-Oxidation to Explain the Abrupt Transition from Thermal to Non-Thermal Laser Damage Mechanisms at 413 nm)
Characterizing Temperature-Dependent Photo-Oxidation to Explain the Abrupt Transition from Thermal to Non-Thermal Laser Damage Mechanisms at 413 nm
Authors:
Michael Denton, TASC, Inc.; San Antonio TX
C.D. Clark, TASC, Inc.; Brooks City-Base TX USA
Gary Noojin, TASC, Inc.; Brooks City-Base TX
Kurt Schuster, TASC, Inc.; Brooks City-Base TX
Curtis Burney, Air Force Research Laboratory; Brooks City-Base TX
Benjamin Rockwell, Air Force Research Laboratory; Brooks City-Base TX USA
Robert Thomas, Air Force Research Laboratory; Brooks City-Base TX USA
Presented at ILSC 2011
Laser exposure duration dictates whether tissues...$28.00
ILSC 2011 Paper #801 (Retinal Damage Threshold in the 1 ns to 100 ns Exposure Duration Range)
Retinal Damage Threshold in the 1 ns to 100 ns Exposure Duration Range
Authors:
Brian J. Lund, U.S. Army Institute of Surgical Research; Fort Sam Houston TX USA
David J. Lund, U.S. Army Institute of Surgical Research; Fort Sam Houston TX
Peter R. Edsall, TASC, Inc.; San Antonio TX
Martin L. Holmes, U.S. Army Institute of Surgical Research; Fort Sam Houston TX
Presented at ILSC 2011
The draft updates to American and international laser exposure guidelines (ANSI Z136, ICNIRP) recommend that the Maximum Permissible Exposure level (MPE) be reduced in the nanosecond to microsecond exposure duration range. We report on our measurement of the ED50 for laser-i...$28.00
ILSC 2011 Paper #704 (LED Safety in Toys)
LED Safety in Toys
Authors:
Michael Higlett, Health Protection Agency; Didcot Great Britain
Marina Khazova, Health Protection Agency; Didcot Great Britain
John O'Hagan, Health Protection Agency; Didcot Great Britain
Presented at ILSC 2011
The use of LEDs in consumer products, including toys, is rapidly increasing. The LEDs bring a visual appeal to the toy. Choosing the appropriate LED is important to avoid the risk of injury to the child, especially with the development of more efficient, higher power LEDs. This has led to the need of an easy to follow assessment that may be adopted by toy manufacturers when evaluating the suitability of an LED. A suggested assessmen...$28.00
ILSC 2011 Paper #703 (Manufacturing and Approval Requirement Differences Between FDA/CDRH and DOD)
Manufacturing and Approval Requirement Differences Between FDA/CDRH and DOD
Authors:
Richard Kice, Air Force Research Laboratory; Brooks City-Base TX USA
Lt Col Nick Schaaf, Air Force Research Laboratory; Brooks City-Base TX
David Broadwater, Air Force Research Laboratory; Brooks City-Base TX USA
Annamaria Vesely, Air Force Research Laboratory; Brooks City-Base TX USA
Wallace Mitchell, TASC, Inc.; Brooks City-Base TX USA
Harvey Hodnett, TASC, Inc.; Brooks City-Base TX USA
Baxter Newton, TASC, Inc.; Brooks City-Base TX USA
Robert Aldrich, Naval Surface Warfare Center Dahlgren Division, G73 Lead Naval Technical Laboratory f...$28.00
ILSC 2011 Paper #702 (Principles for Safe Exposures to Lasers in Human Subjects for Non-Therapeutic Research)
Principles for Safe Exposures to Lasers in Human Subjects for Non-Therapeutic Research
Authors:
Peter A. Smith, TASC, Inc; San Antonio TX USA
Brian K. Foutch, Air Force Research Laboratory; Brooks City Base TX USA
Leon N. McLin, Air Force Research Laboratory; Brooks City-Base TX USA
Presented at ILSC 2011
For many years, our research at the Optical Radiation Branch of the Air Force Research Laboratory has been oriented toward developing a greater understanding of the transient effects of visible laser exposures on human vision. Although laser warning signs instruct people to avoid eye exposure and to not stare into the beam, for our studies we often require human subj...$28.00
ILSC 2011 Paper #701 (Maintaining Laser Safety during Commissioning of the Orion High Intensity Laser Facility)
Maintaining Laser Safety during Commissioning of the Orion High Intensity Laser Facility
Authors:
Steve Melton, AWE; Reading Great Britain
Graham White, AWE; Reading Great Britain
Presented at ILSC 2011
The Orion high intensity laser facility for plasma physics research at AWE in the UK is nearing completion. The commissioning of the first two of its 12 beams, one long pulse (max. 5kJ at 351nm in 1ns) and one short pulse (max. 1PW at 1054nm in 0.5ps) is scheduled for completion by December 2010. Commissioning of the first two beams has continued concurrently with final installation of the other beams and this has required innovative laser safety solutions and rigorous work contro...$28.00
ILSC 2011 Paper #603 (Beam Quality Control and Consistent Safety Standard for High Power Laser Products)
Beam Quality Control and Consistent Safety Standard for High Power Laser Products
Authors:
Hong Chen, Institute of Laser Engineering, Beijing University of Technology; Beijing Peoples Republic of China
Xubao Wang, Insitute of Laser Engineering, Beijing University of Technology; Beijing Peoples Republic of China
Presented at ILSC 2011
Along with laser technology, particularly laser application technology gradually plays a leading role in the field of industrial field, high power laser products and their safety requirements attracted more and more attention. In fact, in laser welding, cutting, surface treatment and other industrial applications, most concern was focused on laser powe...$28.00
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