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  • JLA Vol:9 Iss:6 (Evolving issues in laser safety)


    Authors:
    David H. Sliney
    US Army Center for Health Promotion and Preventive Medicine, Laser/Optical Radiation Program, Aberdeen Proving Ground, MD 21010‐5422, U.S.A.


    The approach to laser safety has come a long way since the 1960s when the first guidelines were issued by defense research organizations in the US and the UK, and then by the American Conference of Governmental Industrial Hygienists. Although the search for ‘eye‐safe’ numbers continues in a few laboratories, this work is almost exclusively centered on deriving retinal thresholds for ultra‐short (sub‐nanosecond) lasers. Setting limits in this temporal region has been difficult, since...

    $25.00

  • JLA Vol:9 Iss:6 (Amendments to the Center for Devices and Radiological Health Federal Performance Standard for laser products)


    Authors:
    Jerome E. Dennis
    Center for Devices and Radiological Health, Food and Drug Administration, Rockville, MD, U.S.A.


    Federal law requires that all laser products that are imported into or introduced into commerce in the United States comply with the performance standard published in the Code of Federal Regulations (CRF), Title 21, Parts 1040.10 and 1040.11, administered by the Center for Devices and Radiological Health (CDRH), US Food and Drug Administration. Although it contains somewhat different requirements for hazard classification, engineering controls and labeling, the ANSI Z136.1 standard defers to the CDRH standard. The CDRH standard became effective in August, 1976 and ...

    $25.00

  • JLA Vol:9 Iss:6 (… .But is it really safe?)


    Authors:
    Peter A. Smith
    DERA Centre for Human Sciences, Farnborough, Hampshire, U.K.


    $25.00

  • JLA Vol:8 Iss:1 (Recent progress in laser surface treatment: <emph type="4">I</emph>. Implications of laser wavelength)


    Authors:
    W. Bloehs
    B. Gru¨nenwald
    F. Dausinger
    H. Hu¨gel
    Institute fu¨r Strahlwerkzeuge, Universita¨t Stuttgart, Pfaffenwaldring 43, 70569 Stuttgart, Germany


    The coupling mechanisms of laser radiation and the mechanisms of heat transport in the workpiece are considered. Starting from the well&hyphen;known basics of Fresnel absorption — valid only for smooth and clean surfaces — further effects of coupling are examined. Studies on the effects of surface modifications inherent to all industrial parts and process conditions are presented. The more appropriate term coupling rate is introduced: This describes the r...

    $25.00

  • JLA Vol:8 Iss:1 (Comparison of aluminum alloy welding characteristics with 1 kW CO and CO<sub>2</sub> lasers)


    Authors:
    Bu¨lent A. Mehmetli
    Kunimitsu Takahashi
    Shunichi Sato
    Institute of Research and Innovation, Laser Laboratory 1201 Takada, Kashiwa&hyphen;shi, Chiba 277, Japan


    Welding characteristics of various aluminum alloys (A1100, A2017, A5083, A6063, A7N01) are investigated with CW CO and CO2 lasers near 1 kW power level. The beam characteristics of both lasers at the welding point are similar, so that a comparison can be made of the effect of the wavelength difference. The welding characteristics are assessed by measuring the size of the weld bead. It is found that the threshold power between heat&hyphen;conduction and deep&hyphen;penetration typ...

    $25.00

  • JLA Vol:8 Iss:1 (Frequency&ndash;time characteristics of air&hyphen;borne signals from laser welds)


    Authors:
    D. Farson
    K. Hillsley
    J. Sames
    R. Young



    The acoustic emissions from laser lap welds in stainless steel sheet were recorded and analyzed. The acoustic signals emanating from the weld were sensed with an instrument microphone and analyzed using short&hyphen;time Fourier spectra to characterize their time&hyphen;frequency distributions. It was determined that the acoustic spectrum of good&hyphen;quality, full&hyphen;penetration welds could be differentiated from the spectra of poor&hyphen;quality welds, defined as either partial&hyphen;penetration welds or welds having a gap between the sheets being joined. A novel, relatively simple class...

    $25.00

  • JLA Vol:8 Iss:1 (Laser polarimeters: Overview of recent developments, design and applications)


    Authors:
    Vi´ctor Fajer Avila
    Center for the Development of Scientific Equipment and Instruments, Ministry of Science Techonology and Environment, Havana, Cuba


    Research carried out in Cuba has led to the design and construction of automatic polarimeters that use the He&hyphen;Ne laser as a luminous source and work on a magnetooptic principle of measurement. Physical and chemical investigations including the use of the He&hyphen;Ne laser as a light source are discussed. The principle of measurement for the design and construction of polarimeters, resulting in three different types of these instruments, is described. Finally, applications for magnetooptic polarimetry are described,...

    $25.00

  • JLA Vol:8 Iss:1 (Laser technology at the Oak Ridge National Laboratory)


    Authors:
    Marc L. Simpson
    John C. Miller
    Doug H. Lowndes
    Oak Ridge National Laboratory, PO Box 2008 Oak Ridge, TN 37831, U.S.A.


    Researchers at the Department of Energy (DOE) facilities at Oak Ridge perform a variety of basic and applied research involving lasers and laser technology. One of the major strengths at Oak Ridge is the combination of core capabilities in optical materials, optical diagnostics, and sensors. Communities benefiting from these core capabilities include environmental, biomedical, and industrial sponsors. Industry can interact with Oak Ridge in a variety of ways: with Cooperative Research and Development Agreements (CRADAs), through Work ...

    $25.00

  • JLA Vol:8 Iss:2 (High power calibration of commercial power meters using an NIST&hyphen;traceable secondary standard)


    Authors:
    Michael L. Lander
    John O. Bagford
    Daniel B. Seibert
    Robert J. Hull



    For the past 19 years, the Laser Hardened Materials Evaluation Laboratory (LHMEL), located at Wright&hyphen;Patterson AFB, OH, has maintained a number of calibrated high energy power measurement devices capable of measuring CO2 powers up to 150 kW. These devices, calibrated annually to the National Institute for Standards & Technology (NIST) high energy standard calorimeters, serve as secondary standards for in&hyphen;house calibration of LHMEL's commercial power heads and calorimeters. Recent discussions with academic and industrial laser users have ident...

    $25.00

  • JLA Vol:8 Iss:2 (Obtaining laser safety at a synchrotron radiation user facility: The Advanced Light Source)


    Authors:
    Kenneth Barat
    Lawrence Berkeley National Laboratory, MS 90&hyphen;2148, 1 Cyclotron Road, Berkeley, CA 94720, U.S.A.


    The Advanced Light Source (ALS) is a United States national facility for scientific research and development located at the Lawrence Berkeley National Laboratory in California. The ALS delivers the world's brightest synchrotron radiation in the far ultraviolet and soft X&hyphen;ray regions of the spectrum. As a ‘user facility’ it is available to researchers from industry, academia, and laboratories from around the world. Subsequently, a wide range of safety concerns become involved. This article relates not only to synchrotron facilities but to any ...

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