Visible Laser Light — Do Not Stare into Beam or View Directly with Optical Instruments Initials: __________Date: __________ CW power: ______________WType:

Slides:



Advertisements
Similar presentations
PMT absolute calibration using the Rayleigh scattering in Nitrogen air PMT absolute calibration using the Rayleigh scattering in Nitrogen air S. Yoshida,
Advertisements

Conventional e+ source: 300 Hz linac R/D Beam loading compensation study at ATF ECFA LC2013 at DESY KEK Junji Urakawa ICS Chamber including Laser.
Hand-held Stabilized Laser Pointer Patent: Date: Jul Inventors: Jeffrey Dale Wilson, Daniel Steven Sanchez OPT Danlu Huang.
Wavelength, Frequency, and Energy Practice Problems
Which one of these transitions in the Bohr hydrogen atom model leads to the emission of the photon with the longest wavelength? ni = 1 → nf = 3 ni = 6.
Building a Continuous Wave Erbium Doped Fiber Laser and Amplifier Ben Baker Kristen Norton.
AREAL Laser overview Advanced Research Electron Accelerator Laboratory Aghasi Lorsabyan.
WARNING ! Embedded Class 1 Laser — Exposure Hazard May exist Only if Protective Housing is Removed Initials: __________Date: __________ CW power: ______________WType:
Diamond Radiator Development Brendan Pratt University of Connecticut GlueX Collaboration Meeting, Jefferson Lab, October 2011.
Invisible and Visible Laser Radiation — Avoid Direct Eye Exposure Initials: __________Date: __________ CW power: ______________WType: _______________ Pulse.
Fig Wave front at a time dt after passing thru a stationary plane © 2003 J. F. Becker San Jose State University Physics 52 Heat and Optics.
Optical Diagnostics Thomas Tsang tight environment high radiation area non-serviceable area passive components optics only, no active electronics back.
Everyday Light. Optical emission fluorescencephosphorescence.
Disconnected optical connectors may emit optical energy. Do not view beam with optical instruments. (SG3a) CAUTION Disconnected optical connectors may.
Invisible and Visible Laser Radiation — Avoid Eye or Skin Exposure to
Physics 52 - Heat and Optics Dr. Joseph F. Becker Physics Department San Jose State University © 2005 J. F. Becker.
4/19/06 Spectra: Continuous vs. Discrete Friday’s Reading: Section 14.3: Lasers and LEDs (pp. 464 – 470) Upcoming Reading Assignments: Section 15.1: Cameras.
Invisible and Visible Laser Radiation — Avoid Direct Eye Exposure Initials: __________Date: __________ CW power: ______________WType: _______________ Pulse.
Laser Safety Andras Kis Zettl group safety talk 11/16/2006.
October 16-18, 2012Working Group on Space-based Lidar Winds 1 AEOLUS STATUS Part 1: Design Overview.
Opto CANADA 9-10 May 2002CAo6-515 Model calculation on the efficiency of PDT by pulsed laser application Hans-Georg Fercher, Dirk Meyer, and Hans-Jochen.
ICP Light Notes 4/22/13 & 4/23/13. Warmup 1)What is the lowest energy part of the electromagnetic spectrum? 2)What type of electromagnetic radiation is.
NIST-F1 Cesium Fountain Atomic Clock The Primary Time and Frequency Standard for the United States f = 9,192,631,770.
Folienvorlagen für Seminarvortrag. Novel laser concepts HR-mirror out coupling mirror disc cooling diode laser focusing optic diode laser focusing optic.
PESP-2002 Sept High Power Diode Laser System for SHR D.Cheever, M.Farkhondeh, B.Franklin, E.Tsentalovich, T.Zwart MIT-Bates Linear Accelerator.
GROUP 8. REFLECTION-REFRACTION  How we can teach the students about reflection and refraction:
LaRC Wind Observations with the VALIDAR Doppler Lidar Grady J. Koch 1, Jeffrey Y. Beyon 2, Bruce W. Barnes 1, and Michael J. Kavaya 1 1 NASA Langley Research.
1. In my classroom, you are 1.45 m from one of the stereo speakers, and 3.21 m from the other. If the wavelength is.391 m, what kind of interference do.
Source of longitudinally polarized electrons I.A.Koop BINP, Novosibirsk, Russia Tau-2008 satellite meeting Novosibirsk
ELECTROMAGNETIC SPECTRA. c = λν E = hν E = mc 2 c = 3.00 x 10 8 m / sec h = x J sec Hz = 1 / sec HELPFUL EQUATIONS.
Waves, Light & Quanta Tim Freegarde Web Gallery of Art; National Gallery, London.
Spectrums & Telescopes *A device that makes distant objects appear to be closer *They detect electromagnetic radiation – light or energy that can travel.
Extreme Light Infrastructure in Romania: progress Daniel URSESCU Technical contact point for ELI in Romania INFLPR, Magurele, Romania.
Workshop for advanced THz and Compton X-ray generation
1 Guidestar Laser Requirements for ELTs Brent Ellerbroek (with thanks to Norbert Hubin and Michael Lloyd-Hart) 2007 CfAO Fall Retreat Lake Arrowhead November.
Date of download: 5/27/2016 Copyright © 2016 SPIE. All rights reserved. A structure of the PH network 9 with averaged parameters. Figure Legend: From:
Date of download: 6/1/2016 Copyright © 2016 SPIE. All rights reserved. (a) The schematic diagram and (b) the photograph of the graphene saturable absorber.
Date of download: 6/25/2016 Copyright © 2016 SPIE. All rights reserved. Temporal profiles of a laser pulse at 1064, 532, and 355nm measured with a 1-ns.
Laser safety Outline : Laser effects on tissues (skin and eyes)
Early VALIDAR Case Study Results Rod Frehlich: RAL/NCAR Grady Koch: NASA Langley.
WARNING WARNING WARNING WARNING
Y. Zhu, C. L. Yuan, S. L. Quek, S. S. Chan, and P. P. Ong
The Electromagnetic Spectrum Part 1
Electro-Optical Systems
Lasers for the polarimeter
Date of download: 11/8/2017 Copyright © ASME. All rights reserved.
Date of download: 1/2/2018 Copyright © ASME. All rights reserved.
From: Magnetic Field Effects on Laser Drilling
Injection seeded ns-pulsed Nd:YAG laser at 1116 nm for Fe-Lidar
SPLASH FALL ALEXANDRE GAUTHIER
BC2 Commissioning Parameters
25.1 The Electromagnetic Spectrum
Optical Diagnostics tight environment high radiation area
X-Ray Spectrometry Using Cauchois Geometry For Temperature Diagnostics
Optical SETI Comes of Age
LCLS Commissioning Parameters
Electromagnetic Spectrum
Electromagnetic Waves
Fiber Optic Communication Lec 11 By
Basic Camera Function The camera converts an optical image into electrical signals that are reconverted by a television receiver into visible screen images.
The Function of InP Window
Sample Problem c =    c  =  3.00  108 m/s  = 6.0  /s
Fibre Lasers for SILIcon testing
TIME RESOLVED SPECTROSCOPY [T.R.S.]:
N.Kukhtarev, T.Kukhtareva, P.Land, J.H. Caulfield, and J.Wang
Properties of Waves.
Thing / Person:____________________ Dates:_________________
Performance Specifications
Invisible and Visible Laser Radiation — Avoid Direct Eye Exposure
ULTRA Meeting – Torino Gennaio
Presentation transcript:

Visible Laser Light — Do Not Stare into Beam or View Directly with Optical Instruments Initials: __________Date: __________ CW power: ______________WType: _______________ Pulse PRF: ______________Hz : ________________nm duration: _____________s energy: ______________JClass 2 laser Visible Laser Light — Do Not Stare into Beam or View Directly with Optical Instruments Initials: __________Date: __________ CW power: ______________WType: _______________ Pulse PRF: ______________Hz : ________________nm duration: _____________s energy: ______________JClass 2 laser Visible Laser Light — Do Not Stare into Beam or View Directly with Optical Instruments Initials: __________Date: __________ CW power: ______________WType: _______________ Pulse PRF: ______________Hz : ________________nm duration: _____________s energy: ______________JClass 2 laser Visible Laser Light — Do Not Stare into Beam or View Directly with Optical Instruments Initials: __________Date: __________ CW power: ______________WType: _______________ Pulse PRF: ______________Hz : ________________nm duration: _____________s energy: ______________JClass 2 laser Visible Laser Light — Do Not Stare into Beam or View Directly with Optical Instruments Initials: __________Date: __________ CW power: ______________WType: _______________ Pulse PRF: ______________Hz : ________________nm duration: _____________s energy: ______________JClass 2 laser Visible Laser Light — Do Not Stare into Beam or View Directly with Optical Instruments Initials: __________Date: __________ CW power: ______________WType: _______________ Pulse PRF: ______________Hz : ________________nm duration: _____________s energy: ______________JClass 2 laser Visible Laser Light — Do Not Stare into Beam or View Directly with Optical Instruments Initials: __________Date: __________ CW power: ______________WType: _______________ Pulse PRF: ______________Hz : ________________nm duration: _____________s energy: ______________JClass 2 laser Visible Laser Light — Do Not Stare into Beam or View Directly with Optical Instruments Initials: __________Date: __________ CW power: ______________WType: _______________ Pulse PRF: ______________Hz : ________________nm duration: _____________s energy: ______________JClass 2 laser Visible Laser Light — Do Not Stare into Beam or View Directly with Optical Instruments Initials: __________Date: __________ CW power: ______________WType: _______________ Pulse PRF: ______________Hz : ________________nm duration: _____________s energy: ______________JClass 2 laser Visible Laser Light — Do Not Stare into Beam or View Directly with Optical Instruments Initials: __________Date: __________ CW power: ______________WType: _______________ Pulse PRF: ______________Hz : ________________nm duration: _____________s energy: ______________JClass 2 laser Visible Laser Light — Do Not Stare into Beam or View Directly with Optical Instruments Initials: __________Date: __________ CW power: ______________WType: _______________ Pulse PRF: ______________Hz : ________________nm duration: _____________s energy: ______________JClass 2 laser Visible Laser Light — Do Not Stare into Beam or View Directly with Optical Instruments Initials: __________Date: __________ CW power: ______________WType: _______________ Pulse PRF: ______________Hz : ________________nm duration: _____________s energy: ______________JClass 2 laser