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3 edition of Titanium-doped sapphire laser research and design study found in the catalog.

Titanium-doped sapphire laser research and design study

Titanium-doped sapphire laser research and design study

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Published by National Aeronautics and Space Administration, Scientific and Technical Information Office, For sale by the National Technical Information Service] in [Washington, DC], [Springfield, Va .
Written in English

    Subjects:
  • Lasers.

  • Edition Notes

    Other titlesTitanium doped sapphire laser research and design study.
    StatementPeter F. Moulton.
    SeriesNASA contractor report -- 4093., NASA contractor report -- NASA CR-4093.
    ContributionsUnited States. National Aeronautics and Space Administration. Scientific and Technical Information Office.
    The Physical Object
    FormatMicroform
    Pagination1 v.
    ID Numbers
    Open LibraryOL15279635M

    Publications Max-Planck-Zentrum für Physik und Medizin Independent Research Groups. Kokta M.R. () Process for enhancing fluorescence of tunable titanium-doped oxide laser crystals. US 4,,, issued January Kondo D.M. () Lab Notes: Sapphire with a double star.   The laser setup includes wavelength-tuneable lasers based on two different types of the gain medium: liquid solutions of organic dyes and solid state titanium-doped sapphire crystals (Ti:Sa, chemical formula Ti +3:Al 2 O 3). A selection of ~15 laser dyes are available for operation of the dye lasers with or nm by: Formation of sapphire thin films, and most particularly sapphire waveguides, is of great importance in the context of optical and opto-electronic devices. Sapphire is the hardest of all oxide crystals, and has a range of physical properties such as thermal conductivity, electrical conductivity and resistance to chemical attack, that make it a superb choice for environments where extended UV Author: R.W. Eason, L.M.B. Hickey, S. Mailis, M. Jelínek, K. Rogers.


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Titanium-doped sapphire laser research and design study Download PDF EPUB FB2

Titanium-Doped Sapphire Laser Research and Design Study Peter F. Moulton Scbwartz Electro-Optics, Inc. Boston Division Concord, Massacbusetts Prepared for Langley Research Center under Contract NAS National Aeronautics and Space Administration Scientific and. Get this from a library.

Titanium-doped sapphire laser research and design study. [Peter F Moulton; United States. National Aeronautics and Space Administration. Titanium-doped sapphire laser research and design study [microform] / Peter F. Moulton National Aeronautics and Space Administration, Scientific and Technical Information Office ; For sale by the National Technical Information Service] [Washington, DC]: [Springfield, Va Australian/Harvard Citation.

Moulton, Peter F. & United States. Tunable titanium doped sapphire laser (abbreviate as Ti:sapphire laser, or Ti:S laser) is an all-solid-state laser using Ti: Al2O3 crystal as laser medium.

The Ti:sapphire laser (Ti:Al 2 O 3) is a tunable laser which emits red and near-infrared light in the range from to -two years after the ruby laser was discovered, P.

Moulton demonstrated the generation of a Ti:sapphire laser in which the Cr ion in the Al 2 O 3 matrix was substituted by titanium transition-metal ion (Moulton, ). Since their invention in the early s, titanium-doped sapphire (Ti:Al 2 O 3 or Ti:sapphire) lasers and amplifiers have enabled countless applications in fundamental research in physics, biology and chemistry.

Today, they play Titanium-doped sapphire laser research and design study book important role across a wide range of photonics applications, including multicolor ultrafast spectroscopy, multiphoton deep-tissue imaging, terawatt and petawatt.

Abstract. Tunable titanium doped sapphire laser (abbreviate as Ti:sapphire laser, or Ti:S laser) is an all-solid-state laser using Ti: Al 2 O 3 crystal as laser medium. If all-solid-state tunable laser technology is seen as one development direction of the tunable laser technology, up to now, Ti:sapphire laser is the most practical, fast, and mature technology, which was first developed by Author: Jianquan Yao, Yuye Wang.

Titanium Doped Sapphire (Ti:Sapphire) crystals are used in laser and photo optic applications. American Elements produces to many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing.

A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic term "laser" originated as an acronym for "light amplification by stimulated emission of radiation".

The first laser was built in by Theodore H. Maiman at Hughes Research Laboratories, based on theoretical work by Charles Hard Townes and Arthur. Ti:Sapphire (Al 2 O 3:Ti 3+)- titanium-doped sapphire crystals combine supreme physical and optical properties with broadest lasing indefinitely long stability and useful lifetime added to the lasing over entire band of nm challenge "dirty" dyes in variety of applications.

The laser is based on an injection-seeded Titanium-doped-sapphire ring cavity. Our experiments show how the pulse duration can be varied in a controllable fashion either by changing the cavity. Ti:sapphire lasers (also known as Ti:Al 2 O 3 lasers, titanium-sapphire lasers, or Ti:sapphs) are tunable lasers which emit red and near-infrared light in the range from to nanometers.

These lasers are mainly used in scientific research because of their tunability and Titanium-doped sapphire laser research and design study book ability to generate ultrashort based on Ti:sapphire were first constructed and invented in June. 1 February __ OPTICS E COMMUNICATIONS EISEVIER Optics Communications () Experimental study of a self-starting Kerr-lens mode-locked titanium-doped sapphire laser J.

Solis a, J. Siegel a, C.N. Afonso a, N.P. Barry b, R. Mellish b, P.M.W. French b '' Cansejo Superior de iones Cientificas, Instituto de Optica, Serrano,Madrid, Spain " Femtosecond Cited by: 7. At CLEO ′85 we reported an efficient flashlamp-pumped titanium-doped sapphire laser which is capable of output energies of several hundred millijoules.

Despite advances in efficiency, however, high power operation of the laser was still limited in part by short flashlamp life (approximately 10 3 shots).Author: P. Lacovara, L. Esterowitz. The RP Photonics Buyer's Guide contains 19 suppliers for titanium--sapphire lasers. Among them: Kapteyn-Murnane Laboratories.

The RAEA™ Ti:sapphire amplifier builds on KMLabs’ year tradition of leadership in ultrafast science, bringing the unmatched flexibility of previous amplifier systems into a single, hands-free platform. Engineered for high harmonic generation (HHG): now you can.

Titanium doped sapphire is currently the leading solid state material for ultrashort pulse laser development.

As a gain material for short pulse lasers Ti:Al 2 O 3 has several positive features, including a large gain bandwidth of approximately nm in the near IR. Titanium Doped Sapphire (Ti 3+:Al 2 O 3). Titanium doped sapphire (Ti 3+:Al 2 O 3) combines the excellent thermal, physical and optical properties of Sapphire, Ti 3+ ion’s very large gain bandwidth, and a wide range of possible pump wavelengths.

These properties make Titanium doped sapphire the most widely used crystal for wavelength tunable lasers and ultrashort pulse generation. Abstract. Titanium-doped sapphire (Ti:sapphire) lasers have been extensively studied since their recent introduction [1–3].

Because of their wide tuning range (≈ to nm), Ti:sapphire lasers are candidates for remote lidar measurements of H 2 O vapor (≈ and nm) and pressure and temperature (≈ nm). These measurements require efficient narrow bandwidth operation and Cited by: 1. The titanium-doped sapphire (Ti:Al2O3) laser is a relatively recent addition to the class of widely tunable lasers.

Recent material growth has provided samples of high optical quality and high figure of merit. Cross sections, tuning methods, and large boule evaluation of.

@article{osti_, title = {Saturation of green absorption in titanium-doped sapphire laser crystals}, author = {DeShazer, L G and Eggleston, J M and Kangas, K W}, abstractNote = {Saturation of the pump-band absorption in Ti:sapphire has been observed by using nsec,rized pulses of nm with fluences up to 4 Jcm/sup 2/.

Ti:sapphire mode-locked lasers provide a large wavelength tuning range, from about to over nanometers, with pulse widths approximately femtoseconds in length. Note that the lowest pulse width attainable in the actual Spectra Physics laser is 50 femtoseconds. Ti:Sapphire Laser Crystals Titanium - Doped Sapphire.

Titanium-doped sapphire is an optically pumped, solid-state laser material with an indefinitely long stability and useful life. It is the most widely used crystal for wavelength tunable lasers.

And it is a leading material in the field of femtosecond pulse lasers. Al2O3:Ti3+ indefinitely long stability and useful lifetime added to the lasing over entire band of – nm challenge “dirty” dyes in variety of applications.

Medical laser systems, lidars, laser spectroscopy, direct femtosecond pulse generation by Kerr-type mode-locking – there are few of existing and potential applications.

Laser Cutting System ExactCut Laser Cutting System The ExactCut is a compact laser system for precision cutting of thin and thick metals and alloys, as well as brittle materials like sapphire, PCD, and ceramics.

Built on a high-precision granite motion module and powered by the latest fiber laser technology the. Related Products: Sapphire Cutting | Exactcut | Laser Cutting Machines.

Cw laser action of Ti:Al2O3 under argon-ion laser pumping is presented. We analyze the free-running characteristics and the effective emission cross section of the laser. The temperature dependence of the 2E lifetime was measured from 4 to K and is explained in a single-phonon model.

The quantum efficiency of Ti:Al2O3 at room temperature is 80%. Titanium Doped Sapphire Crystal Ti:Sapphire Titanium-doped sapphire crystals combine supreme physical and optical properties with broadest lasing range.

Ti:Sapphire crystal is indefinitely long stability and useful lifetime added to the lasing over entire band of – nm challenge “dirty” dyes in variety of applications. It is the.

The titanium-doped sapphire laser (Ti:sapphire) is a tunable laser that has excellent tunability and potential to create ultrashort pulses. It emits near-infrared and red light in the range of Author: Azooptics. Titanium doped Sapphire (Ti 3+:Al 2 O 3 or Ti:Sapphire) is the most widely used crystal for wavelengths tunable lasers.

It combines the excellent thermal, physical and optical properties of Sapphire with the broadest tunable range of any known material. It can be lased over the entire band from to nm. Titanium doped sapphire crystal was excited by green light of diode pumped solid state DPSS laser.

The DPSS laser is an absorption band of Ti:sapphire. The spectrum of absorption band comprised ofand nm. After the Ti:sapphire crystal was excited the fluoresce beam comprised the majority line of nm.

The intensity of the. Titanium sapphire laser characteristics. Rapoport WR, Khattak CP. The titanium-doped sapphire (Ti:Al(2)O(3)) laser is a relatively recent addition to the class of widely tunable lasers.

Recent material growth has provided samples of high optical quality and high figure of by: The contents of Tunable Solid-State Lasers II comprise the pro­ ceedings of the second of these two, held at Rippling River Resort, Zigzag, Oregon, JuneIn addition to the four areas of attention in the La Jolla meeting, pa­ pers on color-center and new rare.

The special issue is composed of 5 review papers and 17 original research papers unified by the general topic of “nonlinear and ultrafast nanophotonics”. The studied materials and nanoscale systems include molecular and biomolecular systems, plasmonic metallic nanostructures, high index all-dielectric nanostructures, two-dimensional Cited by: 2.

1 Fiber-laser-pumped Ti:sapphire laser G. Samanta,1, * S. Chaitanya Kumar,1 Kavita Devi,1 and M. Ebrahim-Zadeh 1,2 1ICFO-Institut de Ciencies Fotoniques, Mediterranean Technology Park, Castelldefels, Barcelona, Spain 2Institucio Catalana de Recerca i Estudis Avancats (ICREA), Passeig Lluis Compa BarcelonaSpain * Email: [email protected] Fax: 34 Author: G.

Samanta, S. Chaitanya Kumar, Kavita Devi, M. Ebrahim-Zadeh. A laser is a device that emits light (electromagnetic radiation) through a process of optical amplification based on the stimulated emission of term "laser" originated as an acronym for Light Amplification by Stimulated Emission of Radiation.

[1] [2] The emitted laser light is notable for its high degree of spatial and temporal coherence, unattainable using other technologies.

First-principles calculations are performed to study the absorption spectra and electron-vibration coupling of titanium-doped sapphire (Ti:Al 2 O 3).Geometry optimization shows a local structure relaxation after the doping of by: 3.

Pulsed injection control of a titanium-doped sapphire laser. Brockman P, Bair CH, Barnes JC, Hess RV, Browell EV. Injection control of a tunable Ti:sapphire laser using a narrow-bandwidth pulsed dye laser operating at a wavelength removed from the Cited by: Peak Power.

Peak power is the instantaneous power, usually at the peak of a laser pulse, also measured in watts. A typical laser discussed in this study may have an average power of only a few watts but could have a peak power as high as 10, trillion watts (10 petawatts, 10 16 watts).

The pulse energy is the integral of the power over the pulse duration, measured in joules. Tsunami Mode-Locked Ti:sapphire Laser iv Should you experience any problems with any equipment purchased from Spectra-Physics, or you are in need of technical information or support, please contact Spectra-Physics as described in “Customer Service.” This chapter contains a list of world-wide Spectra-Physics Service Centers you.

You can write a book review and share your experiences. Other readers will always be interested in your opinion of the books you've read. Whether you've loved the book or not, if you give your honest and detailed thoughts then people will find new books that are right for them.

Group velocity dispersion compensation in femtosecond Ti:sapphire laser Piotr Wiewior Proc. SPIERefractometry, pg 11 (23 June ); doi: /. Study of Laser Ignition System(LIS)-Full Report Wintner, E., Winter[9] in his study This research is done to study the laser ignition of hydrogen air mixture in a laser ignited internal combustion engine.

Titanium-doped sapphire (ti: sapphire) produces a highly tunable infrared laser, used for spectroscopy. Solid state lasers.femtosecond laser You can write a book review and share your experiences. Other readers will always be interested in your opinion of the books you've read.

Whether you've loved the book or not, if you give your honest and detailed thoughts then people will find new books that are right for them., Free ebooks since Recent results of recombination x-ray laser research at SIOFM Zhizhan Xu ; Pinzhong Fan Proc.

SPIEInternational Conference on Lasers and Optoelectronics, pg (11 May ); doi: /