LASER EMITTING MODULE, WINDOW CAP, LASER POINTER, AND LIGHT EMITTING MODULE Kara Lambson OPT 310.

Slides:

Advertisements

Similar presentations

Introduction to Aesthetic Laser Concepts

Advertisements

Untethered Laser Pointer for Use with Computer Display Inventors: Sakunthala Gnanamgari, Devon, PA; Arthur Arthur Lico, PA Assignee: Info Valley Corporation,

Optical sources Lecture 5.

Inventor: Tony Lin, Taichung, Taiwan Date of Issue: August 12, 2003 Natalie Pastuszka OPT310 October 8, 2014.

Chapter 33 - Light and Illumination

Spectrophotometer Light Sources: Lasers. L.A.S.E.R. Acronym for: light amplification by stimulated emission of radiation Basic principle of lasing: population.

Integrated Optic Components  Passive: Requires no input power, like directional couplers, beam splitters, isolators, filters, lenses and prisms  Active:

Dye lasers The gain medium in a dye lasers is a solution made with an organic dye molecule. The solution is intensely coloured owing to the very strong.

Fiber-Optic Communications James N. Downing. Chapter 5 Optical Sources and Transmitters.

Diode laser The diode or semiconductor laser Diode lasers are extremely compact (0.3×0.2×0.1 mm), high efficiency (up to 40%), tuneable lasers, which have.

Neodymium:YAG Laser Nd3+ in yttrium-aluminum-garnet (Y3Al5O12)

Operating instruction for IQ series laser diode module Instructions for IQ1C, IQ2C, IQ4C, IQ1A, IQ2A, IQ4A, IQ1H, IQ2H, and IQ4H By Nathan Bran. and power.

Lasers and Optics By Adam Abawi. Lasers vs. Light A laser differs from other sources of light in that it emits light in a narrow straight line A laser.

Fiber Optic Light Sources

LED Lights vs. Incandescent Lights vs. CFLs. What are LEDS ? LEDs, or light–emitting diodes, are semiconductor devices that produce visible light when.

Microwave, Infrared & Bluetooth Communication. Microwaves microwaves - electromagnetic waves with a frequency between 1GHz (wavelength 30cm) and 3GHz.

Laser Pointer With Controllable Pattern and Size of Projected Image PATENT NO: US 7,971,790 PRESENT BY: CHANGCHEN CHEN SENIOR DESIGN 2014, UNIVERSITY OF.

Laser Safety Andras Kis Zettl group safety talk 11/16/2006.

Common types of spectroscopy

PATENT NO: 7,553,048 Stabilized Mirror System for a Hand-held Laser Pointer PRESENTED BY: TESS JACOBS.

SARAN THAMPY D SARAN THAMPY D S7 CSE S7 CSE ROLL NO 17 ROLL NO 17 Optical computing.

Paint Heat Lamp Power and Control System Team Members: Sui Kwan Ng Vincent Ong Raymond Sidharta Joseph L. Vetter September 18, 2003 Client: H & S Autoshot.

Integrated Cordless Mouse and Laser Pointer (US ) Inventor: Ted Daniels, Nampa, ID (US) Filed on: May 25,1999 Date of Patent: July 9, 2002 Assignee:

Fig 2a: Illustration of macroscopic defects Diffusion lengths are calculated by the equation where μ is the mobility of electron with literature value.

PRACTICAL ELECTRONICS MASTERCLASS (Mr Bell) 1. Light Emitting Diodes (LEDs) LEDs are used as indicator lamps in may devices and are becoming increasingly.

B.SC.II PAPER-B (OPTICS and LASERS) Submitted by Dr. Sarvpreet Kaur Assistant Professor PGGCG-11, Chandigarh.

An Introduction. The first step on the road to laser was the publication of paper by Albert Einstein in 1916 –describing how atoms could interact with.

Projection/Virtual Interface Architecture By Mariko Nihonayangi For Dr. Sathya Narayanan CST 337: Computing Architectures and Environments May 7, 2008.

Laser. Lesson objectives What is laser? What is laser? Applications of laser around us Applications of laser around us Laser radiation hazards Laser radiation.

Fiber Optic Communication Lec 10 By Engr. Muhammad Ashraf Bhutta.

4-Level Laser Scheme. He-Ne Laser Tunable Dye Lasers.

Laser Printer and Photocopiers By Rahul Prasad 2007PH10615.

Gauge Laser Pointer # Filed in December 2006 and Published in June 2008 Peter (Wonyoung) Kim OPT 310.

VCSEL High Speed Drivers

SEMINAR ON: VIRTUAL KEYBOARD PRESENTED BY BY KARTHIK ALVA 5 th sem cs.

The Safe Use of Lasers John Saunderson Laser Protection Adviser Hull & East Yorkshire Hospitals in Clinical Practice.

Luminescence basics Types of luminescence

LIGO-G09xxxxx-v1 Form F v1 Development of a Low Noise External Cavity Diode Laser in the Littrow Configuration Chloe Ling LIGO SURF 2013 Mentors:

Photoluminescence and Photocurrent in a Blue LED Ben Stroup & Timothy Gfroerer, Davidson College, Davidson, NC Yong Zhang, University of North Carolina.

4-Level Laser Scheme nn  m  →  n  excitation  n  →  m  radiative decay slow  k  →  l  fast(ish)  l  →  m  fast to maintain population.

Alternate Applications of Liquid Crystals

Optoelectronics.

Bell Ringer Log onto SOCRATIVE (room # = crice) OR Get a paper copy! (Turn into the black bin on the front table) READ over your Lab Procedure!!!

VIRTUAL KEYBOARD By Parthipan.L Roll. No: 36 1 PONDICHERRY ENGINEERING COLLEGE, PUDUCHERRY.

Laser Pointer Safety 1. Laser Pointer Safety Commonly used during presentations Differ in power output, but look the same.

Presentation System Using Laser Pointer US Patent: 6,910,778 B2 Presenter: Runyu Bi OPT 320 Senior Thesis I.

“LASERS” Light Amplification by the Stimulated Emission of Radiation.

High Power Cladding-pumped Fiber Laser Speaker: Shiuan-Li Lin Advisor : Sheng-Lung Huang Solid-State Laser Crystal and Device Laboratory.

Physical Optics 1 st year physics laboratories University of Ottawa Winter

Light and Optics  The Electromagnetic Spectrum  Interference, Diffraction, and Polarization Wave Properties of Light.

Laserlaser. Laser printer Laser pointer Laser: everywhere in your life.

§8.4 SHG Inside the Laser Resonator

By Shiven Vashisht. A light-emitting diode (LED) is a semiconductor light source. LEDs are used as indicator lamps in many devices and are increasingly.

Light Amplification by Stimulated Emission of Radiation By: James Vanderburg & J.P. Brown.

UNIT-3 ADVANCES IN METROLOGY

Light-Matter Interaction

OPTICAL SOURCE : Light Emitting Diodes (LEDs)

Light Amplification by Stimulated Emission of Radiation

Light Sources for Optical Communications

Photovoltaic Systems Engineering

Atomic Emission Spectra

Atomic Emission Spectra

Lasers. You know magic and stuff

Electromagnetic Spectrum

LASERS By Swapan Das.

RADAR Andrija cinotti 2.c..

3.1 Single slit vs. double-slit

PRINCIPLE AND WORKING OF A SEMICONDUCTOR LASER

Aim: How are an atom’s electrons configured?

A, Arrangement of LEDs at the excitation port of the microscope fluorescence illuminator. a, Arrangement of LEDs at the excitation port of the microscope.

Presentation transcript:

LASER EMITTING MODULE, WINDOW CAP, LASER POINTER, AND LIGHT EMITTING MODULE Kara Lambson OPT 310

General Info Title: Laser Emitting Module, Window Cap, Laser Pointer, and Light Emitting Module; US B2 Filed: August 29, 2005 Issued: November 4, 2008 Inventors: Masayoshi Aoshima, Eiji Otani (JP) - Aoshima: 9 other patents - Otani: 17 other patents Assignee: Sony Corporation, Tokyo (JP) - ~158,000 patents

Need for Invention Light emission from laser pointers restricted to >1mW for safety reasons Low relative visibility from red light laser diode, difficult for human eyes to discern indicated position which is being illuminated by the pointer during presentation using projector

Invention Uses: Spot light for pointing to referring portion during presentation; point out any portion on the screen from a distance with easier handling than a rod-like pointer, and compacter in size Light emitted from laser diode excited solid-state laser medium to generate lights of different wavelengths Convert wavelength via non-linear optical element to emit a laser beam of short wavelength by second harmonic generation Alternative laser pointer using laser beam in range of wavelengths that can provide higher relative visibility factor than red light Dissipated heat management

Prior Art Same solid state laser with many of the same elements and wavelength output Efficiency dependent on temperature  temperature control device required Deterioration of the visibility of a region spot-lighted while laser beam varies unstably due to temperature High failure rate due to all elements arranged in single casing (dust during assembly)

Distinction from Prior Art Contains heat sink to dissipate heat from laser diode and optical resonator  stabilized temperature Airtight material to ensure window cap and internal elements stays dust-free  increased reliability and service life Surface optical filter for selection of wavelengths  reduce number of necessary components Pair of resonance reflectors and different component arrangement  reduced size