Geometry.Net - the online learning center
Home  - Science - Sonoluminescence

e99.com Bookstore
  
Images 
Newsgroups
Page 4     61-80 of 99    Back | 1  | 2  | 3  | 4  | 5  | Next 20
A  B  C  D  E  F  G  H  I  J  K  L  M  N  O  P  Q  R  S  T  U  V  W  X  Y  Z  

         Sonoluminescence:     more detail
  1. Sonoluminescence by F. Ronald Young, 2004-08-30
  2. Sonochemistry and Sonoluminescence (NATO Science Series C: (closed))
  3. Shock Focussing Effect in Medical Science and Sonoluminescence
  4. Sonoluminescence
  5. Optique: Sonoluminescence, Vitesse de La Lumière, Monochromatique, Récepteur Superhétérodyne, Principe Variationnel (French Edition)
  6. Sonoluminescence: An entry from Thomson Gale's <i>Gale Encyclopedia of Science, 3rd ed.</i>
  7. Acoustique: Sonoluminescence, Vitesse Du Son, Viscoanalyseur, Acoustique Musicale, Enregistrement Sonore, Enceinte, Exposimètre (French Edition)
  8. Luminescence: Fluorescence, Triboluminescence, Sonoluminescence, Optical Brightener, Electroluminescence, Cathodoluminescence
  9. Nonlinear Acoustics at the turn of the Millennium: ISNA 15, 15th International Symposium, Göttingen, Germany 1-4 September 1999 (AIP Conference Proceedings)
  10. Cavitation by F. Ronald Young, 1989-09
  11. Sonochemistry/Cavitation by MARGULIS, 1995-11-01

61. Sonoluminescence
sonoluminescence. sonoluminescence is the process of converting soundinto light. There are two types of sonoluminescence, Multiple
http://laser.physics.sunysb.edu/~ken/simons/simonsp3.html
Sonoluminescence
Sonoluminescence is the process of converting sound into light. There are two types of sonoluminescence, Multiple Bubble Sonoluminesence (MBSL) and Single Bubble Sonoluminescence (SBSL). In order to perform sonoluminescence, a flask full of water or whatever medium is connected to two piezoelectric transducers (used to amplify sound). The amplifiers feed into the transducers which then start emitting a very concentrated amount of sound, usually around 20-35 Khz. At this point in time, bubbles begin to form, dubbed as "cavitation bubbles." Once a cavitation bubble is captured in the middle of the flask, it is under the effects of the amplified sound. At a certain resonance point, the bubble begins to emit flashes of white light.
Apparatus:
Design Schematics
Image of SBSL
What I've done so far

62. Fernando Enrique Ziegler - Sonoluminescence
Experiments and Projects. SingleBubble sonoluminescence Abstract; REUPaper (Under Construction); REU Final Presentation (Under Construction);
http://laser.physics.sunysb.edu/~ziggy/report/
Experiments and Projects
Single-Bubble Sonoluminescence:
  • Abstract
  • REU Paper (Under Construction)
  • REU Final Presentation (Under Construction)
  • Final Report (Under Construction)
  • 63. NSF - OLPA - PR 02-63: LIGHT FROM GAS BUBBLES: SONOLUMINESCENCE MEASURED
    (703) 2924967. mclarke@nsf.gov. Light From Gas Bubbles sonoluminescence Measured. Thisphenomenon, called sonoluminescence, has been observed for decades.
    http://www.nsf.gov/od/lpa/news/02/pr0263.htm
    Congressional Affairs Newsroom Speeches Priority Areas ... About Us You are in: NSF Home OLPA Home Newsroom Press Releases NSF Press Release
    Embargoed until 2 p.m. EDT
    NSF PR 02-63 - July 24, 2002 Media contact:
    Amber Jones aljones@nsf.gov Program contact: Michael Clarke mclarke@nsf.gov
    Light From Gas Bubbles: Sonoluminescence Measured
    A cloud of gas bubbles in a liquid excited by ultrasound (generated by a titanium rod vibrating 20,000 times a second) can emit flashes of light (sonoluminescence) due to extreme temperatures inside the bubbles as they collapse.
    Image credit: K. S. Suslick and K. J. Kolbeck, University of Illinois
    Select image for larger version
    (Size: 177KB)
    Gas bubbles form and collapse when a liquid is energized by ultrasound.
    Image credit: K. S. Suslick and K. J. Kolbeck, University of Illinois
    Select image for larger version
    (Size: 400KB) Larger versions (Total Size: 1.2MB)

    64. Chain Reaction Commentary On Sonoluminescence
    C O M M E N A R Y C O M M E N A R Y, Chain Reaction and sonoluminescence You need Netscape! Do you want a furnace that burns water?
    http://www.isn.net/~deighanj/sono.html
    C
    O
    M
    M
    E
    N
    A
    R
    Y
    C
    O M M E N A R Y "Chain Reaction and Sonoluminescence" Do you want a furnace that burns water?
    How Many Have Seen The Movie Chain Reaction? I have not as of yet, see last updated at bottom. But I have seen the previews and was interested enough to visit the CHAIN REACTION WWW SITE WOW!! The stuff you can do with MacroMedia. You will notice I use a lot of their Power Applets on my sites. But I haven't gone all out multimedia. Visit them at http://www.macromedia.com/ First, I am not going to explain sonoluminescence, to get varied descriptions and up to date info do a search on "Open Text Index" , which seems to produce more hits than any of the others. What I would like to discuss is a furnace that burns water. Those of you who don't believe water burns can leave the room now. The rest can read on. For twenty years I've hinted that water burns, I have based this assumption on observation of historical and other events I've witnessed over my lifetime. I have pursued military research into water based weapons systems, human spontaneous combustion, cold fusion and the car that runs on water. There is tons of research into alternate fuels including prototype vehicles using hydrogen conversion. I don't get into the technical stuff, I'm not a scientist or engineer, all I want is a furnace that runs on water, which produces heat and electricity, so I can keep some of my pay check to spend on my family.

    65. Sonoluminescence And Fusion
    The important subject in this case is sonoluminescence, the emission of pulses ofblue light from the collapse of air bubbles in a liquid that has been excited
    http://www.21stcenturysciencetech.com/articles/sonolum.html
    March 5 Evidence showing that nuclear fusion can occur in a beaker of liquid excited by sound waves, has produced a new flurry of press activity reminiscent of that around the 1989 announcement by Pons and Fleischmann that they had achieved fusion in an electrochemical cell. The new evidence, reporting on experiments by a team at Oak Ridge National Laboratory, is reported in an March 8, 2002 article in Science magazine that was released yesterday. As then, the prevailing popular delusions about what science is dominate the discussion, even by the scientists themselves. As the announcment of the 1989 cold fusion anomaly came under attack from lying establishment physicists, discussion unfortunately, degenerated into practical arguments over whether or not, and how soon, a cold-fusion cell in every basement could replace the gas furnace or oil burner. Whether the results announced in the 8 March Science article, ``Evidence for Nuclear Emissions During Acoustic Cavitation,'' prove sound or not, we are reminded again that scientific progress can result only from the posing and resolution of true paradoxes in the mind of an experimental investigator. The important subject in this case is sonoluminescence, the emission of pulses of blue light from the collapse of air bubbles in a liquid that has been excited by sound waves, first studied in Germany in 1934. How a light wave could be produced by a sound wave was the unsolved paradox. In the Oak Ridge experiments, the hydrogen in acetone (C-3 H-6 O), the principal ingredient in nail polish remover, is replaced by the heavier deuterium isotope. Sound waves are passed through the liquid at the same time as a pulse of high energy neutrons. It is hypothesized that the acoustic bubbles which form, then collapse so fast that not only is light produced, but the deuterium is somehow caused to undergo nuclear fusion. The evidence for this is in the excess of neutrons and tritium, a heavier isotope of hydrogen, detected in the solution. The amounts are very small, however, and the existence of the effect is being challenged.

    66. Sonoluminescence Innovations And Patents
    sonoluminescence Innovations and Patents © 2002 Dialysis. More informationon sonoluminescence and sonoluminescence Research References.
    http://www.air.xq23.com/energy_science_resources/Sonoluminescence.html
    Sonoluminescence Innovations and Patents © 2002, XQ23.COM Research (air.xq23.com)
    Who were the
    Great Minds

    Absolute Zero

    Acid Rain

    Acoelomates
    ...
    HOME

    KEY SITES: PRIME-RADIANT FUTURE'S EDGE Future Books
    Educational Priorities

    THE LUMINARIES
    SCIENCE FICTION ARCHIVES: FIRST PILLAR
    kurt vonnegut arthur c clarke david brin ... Dialysis More information on: Sonoluminescence and Sonoluminescence Research References. Recent U.S. patents related to Sonoluminescence: 6,350,431: Compounds 6,343,227: Miniature spectrometer 6,324,418: Portable tissue spectroscopy apparatus and method 6,289,229: Readable probe array for in vivo use 6,250,011: Method for uptake of a substance into a seed 6,242,847: Ultrasonic transducer with epoxy compression elements 6,234,765: Ultrasonic phase pump 6,216,538: Particle handling apparatus for handling particles in fluid by acoustic radiation pressure 6,195,936: Method for uptake of a substance into a seed 6,193,878: Multi-modal method and apparatus for treating a solution 6,185,865: Method for clearing of fungal spores from seed by ultrasound 6,185,443: Visible display for an interventional device

    67. Sonoluminescence -- From Eric Weisstein's World Of Physics
    sonoluminescence, The production of a flash of light accompanying the burstingof a bubble. References. Crum, L. A. sonoluminescence. Physics Today, Sept.
    http://scienceworld.wolfram.com/physics/Sonoluminescence.html

    Fluid Mechanics
    Bubbles and Cavitation
    Sonoluminescence

    The production of a flash of light accompanying the bursting of a bubble. The phenomenon occurs with very small bubbles under high pressure and is not well understood. Bubble Cavitation
    References Crum, L. A. "Sonoluminescence." Physics Today, Sept. 1994, pp. 22-29. Crum, L. A. and Roy, R. A. "Sonoluminescence." Science Hiller, R. et al. "Effect of Noble Gas Doping in Singe-Bubble Sonoluminescence." Science van Warren, L. "The Virtual Sonoluminescence Symposium." http://www.wdv.com/Notebook/Sono/
    Author: Eric W. Weisstein

    68. Teachspin - Sonoluminescence
    sonoluminescence. sonoluminescence is the production of light fromsound. This effect, discovered just over ten years ago, has been
    http://www.teachspin.com/products/sonoluminescence/
    Sonoluminescence
    Sonoluminescence is the production of light from sound. This effect, discovered just over ten years ago, has been, and continues to be, the subject of considerable experimental and theoretical research.
    The bubble collapse is so violent that some predicted theoretical accelerations are larger than those associated with a Black Hole! The actual emission mechanism has not yet been explained, although theories are as plentiful as they are diverse. Students begin their exploration by first understanding some basic acoustical principles, such as resonance behavior, quality factors, variation of sound speed with temperature, and the eigenmode structure of a 3-dimensional resonance "cavity." Once these principles are understood there are a large number of experiments that can be performed focusing on the liquid sample preparation and the light emitted from the bubble. The Instrument

    69. The Search For Sonoluminescence
    The Search for sonoluminescence. The following describes my attempt to producesonoluminescence as guided by an article published in Scientific American.
    http://webphysics.davidson.edu/alumni/AnOdell/exp/sono/exper.htm
    The Search for Sonoluminescence
    The following describes my attempt to produce sonoluminescence as guided by an article published in Scientific American. Unfortunetly I was unable to observe any sonoluminescence, but perhaps my mistakes can serve as additional information for those interested in trying the experiment themselves.
    Apparatus Diagram

    Construction

    Results/Conclusions

    Table of Contents ...
    Davidson Physics

    70. Single Bubble Sonoluminescence
    Single Bubble sonoluminescence. Abstract This is called multi bubblesonoluminescence (MBSL), and is exhibited by a variety of liquids.
    http://www.uberhip.com/people/godber/research/sbsl.html
    Single Bubble Sonoluminescence
    Abstract:
    Bubbles of air in a liquid medium can experience a rapid series of expansions and contractions when exposed to high frequency sound at high levels of intensity. If the intensity is within a certain range the bubbles will begin to emit a faint blue light, due to phenomena as of yet unexplained. This is called multi bubble sonoluminescence (MBSL), and is exhibited by a variety of liquids. If the same procedure is repeated in water in which the dissolved gas has been removed, and a bubble is introduced into the system, similar results will be produced. This single bubble sonoluminescence (SBSL) allows a closer study of the phenomenon because the isolated bubble can be studied without the interference from other bubbles. The light emitted by this single bubble has proven, in fact, to be a rapid flashing. Each flash coincides with the collapse in the radius of the bubble, and is very consistent in the length between flashes and the duration of each flash.
    SPS Undergraduate Lab Goals:
    At this point we are merely interested in reproducing SBSL. If it proves that we can do this we may develop our investigation further.

    71. Reprobus: Sonoluminescence
    reprobus sonoluminescence. reprobus sonoluminescence (SelfReleased- 1999) The (beautifully rendered) skeletal cover art may be
    http://www.spiderbytes.com/ambientrance/rep-s.htm
    reprobus: sonoluminescence
    reprobus: sonoluminescence
    Self-Released
    The (beautifully rendered) skeletal cover art may be more appropriate for the Hallowe'en season than it is for the bright and sprightly electrobeat sounds found in sonoluminescence . Self-confessed "electronic adrenaline junkie" reprobus has obviously poured his heart into these straightforward dance structures which are both retro and active. When you're finished at the AmbiEntrance, click on over to the Reprobus website to learn more. The bouncy beats and ratatat cymbals of love, to be the slave meet with assorted entities, from shimmering synth curtains, to e-piano notes, to tribal percussion to a load of house-y dance effects. Documenting the sounds that influenced Reprobus, very definite old school influences abound in electronic adrenaline junkie which also incorporates a certain amount of sweeping majesty into the track. mantra grooves more slowly, awash in light burbles, bassy rhythmic patterns and spaciously thudding beats. The dreamy oscillations and skyward synth veils of awakening are firmly pinned down by "classic" beat elements (the old robotic handclaps even). The cymbal-heavy, rapid-fire percussion of

    72. Sonoluminescence Physics Research, University Of Michigan Physics Dept Advanced
    Single Bubble sonoluminescence (SBSL) . This page contains CCD imagesof a SBSL experimental setup. The apparatus is located in
    http://www-personal.umich.edu/~twod/sonoluminescence.html
    "Single Bubble Sonoluminescence (SBSL)"
    This page contains CCD images of a SBSL experimental setup. The apparatus is located in the Advanced Physics Teaching Laboratories, Randall Laboratories, University of Michigan Physics Department . The experiment is being developed this year as a candidate for being added to the laboratory's current list of ~30 experiments available to students. Various investigations of the photon emissions are also planned should the setup prove successful. My collaborator on this experiment (I've been the GSI [TA] for the course during Fall of 1998) is Daisuken Nagai , senior physics student.The course instructors are Professors Roy Clarke and Tim Chupp. SBSL is a recently discovered phenomena [by P. Gaitan, 1988] and is currently a subject of much theoretical and experimental interest. In SBSL, a single, micron-sized gas bubble is levitated (trapped) at the center of a cell containing water or other appropriate liquid by the acoustic pressure of vibrations applied at the resonance frequency of the apparatus. Under certain conditions, the bubble collapses while being violently driven, setting off (launching) a highly spherical shock wave towards the center of the bubble. A phase transition occurs whereby the bubble's gas reaches extremely high temperatures (5000 to 50,000 Kelvin) and is seen to emit bluish-white light in synch with the driving acoustic frequency. The turn-on time of the bubble during its collapse is extremely rapid (less than 50 psec) and it is also extinguished very rapidly in less than 34 psec. The jitter between adjacent pulses is quite small, less that 50 picosecond, which is much smaller than the jitter in the driving acoustic force itself.

    73. Revue L'ATTRACTEUR, Hiver 2000 - La Sonoluminescence Ou L'étoile Mystérieuse -
    Translate this page ISSN 1207-0203. La sonoluminescence. ou l'étoile mystérieuse. C'est lasonoluminescence l'art d'utiliser le son pour faire de la lumière!
    http://www.physique.usherb.ca/attracte/09-2000/sonolumin.htm
    L'Attracteur No. Hiver 2000 LA REVUE DE PHYSIQUE ISSN 1207-0203 La sonoluminescence La variation de la pression j Effets de la variation de la pression La courbe rouge pression verte illustre la variation du rayon de la bulle. Celle-ci prend de l'expansion lorsque la pression faiblit puis, se contracte subitement lorsque la pression augmente. Les pics de la courbe bleue sonoluminescence B ibliographie Raymond A. Serway, Physique III: Optique et physique moderne e Seth J. Putterman, Sonoluminescence : sound into light, Scientific American Seth J. Putterman, , La recherche , volume 24, juin 1993, p. 750. http://www-phys.llnl.gov/N_Div/sonolum/ http://www.scs.uiuc.edu/~suslick/britannica.html Images SONOLUMINESCENCE : http://www.aip.org/physnews/graphics/html/sonophot.htm http://rsrch.com/saturna/ GRAPHIQUE : Lawrence Crum, Sonoluminescence, Physics Today , septembre 1994, p.26.

    74. CERN Courier - Sonoluminescence - IOP Publishing
    This Issue Back Issues Editorial Staff Physicswatch sonoluminescence.sonoluminescence appears to be chemical, rather than nuclear, in nature.
    http://www.cerncourier.com/main/article/42/8/10/1/cernphysw2_10-02

    This Issue
    Back Issues Editorial Staff
    Physicswatch
    Sonoluminescence Sonoluminescence appears to be chemical, rather than nuclear, in nature. (K S Suslick and K J Kolbeck, University of Illinois.)
    Back to Article

    75. CERN Courier - Sonoluminescence Could Be Ch - IOP Publishing
    This Issue Back Issues Editorial Staff Physicswatchsonoluminescence could be chemical
    http://www.cerncourier.com/main/article/42/8/10

    This Issue
    Back Issues Editorial Staff
    Physicswatch
    Sonoluminescence could be chemical
    Sonoluminescence
    Research at the University of Illinois points to a chemical nature for sonoluminescence, the phenomenon whereby ultrasound is converted into picosecond light pulses via the rapid oscillations of bubbles in a liquid. Earlier this year, scientists at the US Oak Ridge National Laboratory raised the possibility that sonoluminescence might be linked to nuclear fusion ( CERN Courier May ). However, the Illinois team has found that intense sound can compress bubbles in a liquid, increasing their temperature to 10-20,000 K. This is high enough for the gas molecules inside to become ionized, and results in a series of chemical reactions. Studies on a single bubble of air in water revealed reactant products of nitrite ions, hydroxyl radicals and light. The sonic energy largely goes into chemical reactions, with a small fraction resulting in light, leaving precious little to generate nuclear fusion.
    AIP Physics News Update 599
    Article 10 of 22.

    76. Sonoluminescence
    sonoluminescence From Sound to Light. sonoluminescence (SL) is a fascinatingeffect of the light emission from the gaseous bubbles in liquids.
    http://www.math.duke.edu/~kondic/sl.html
      Sonoluminescence: From Sound to Light
    Sonoluminescence (SL) is a fascinating effect of the light emission from the gaseous bubbles in liquids. The SL bubbles are driven by ultrasonic field, which makes them oscillate with ultrasonic frequency. If bubbles are driven strongly enough, short bursts of light are emitted once during each period of the sound field. The effect have been known for many years. But, just recently it become possible to produce single bubble SL, and to get much better insight into the effect and its characteristics. We have done a considerable amount of theoretical research in the field of sonoluminescence. The research started around 1992, when only very little was known about SL, and we formulated a few theoretical models with the goal of explaining the effect. Our research from this "early" period is summarized in the following papers:

    77. Thread For Forum Environment
    energy, water, Title sonoluminescence and the fusion anomaly. For more commentson sonoluminescence and the fusion anomaly, see www.21stcenturysciencetech.com.
    http://www1.scientecmatrix.com/www/matrix/communities/dr_com_environment.nsf/vID

    78. Sonoluminescence And Coleoptiles
    Index sonoluminescence and coleoptiles. light. sonoluminescence isthe emission of light from cavitating bubbles driven by sound.
    http://www.lns.cornell.edu/spr/2000-04/msg0023822.html
    Date Prev Date Next Thread Prev Thread Next ... Thread Index
    Sonoluminescence and coleoptiles
    • Subject : Sonoluminescence and coleoptiles From : dgoncz@aol.com ( Doug Goncz ) Date : 12 Apr 2000 00:00:00 GMT Approved : spr@rosencrantz.stcloudstate.edu (sci.physics.research) Newsgroups : sci.physics.research Organization : AOL http://www.aol.com
    http://www.deja.com/profile.xp?author=dgoncz@aol.com* http://members.aol.com/DGoncz No eggs in the fridge, just cheap AA cells...

    79. Buoyancy-Driven Instabilities In Single-Bubble Sonoluminescence (BDiSL)
    BuoyancyDriven Instabilities in Single-Bubble sonoluminescence (BDiSL) is a fluidphysics glovebox experiment that is to be conducted on the International
    http://microgravity.grc.nasa.gov/6712/overviews/BDiSL_over.html
    Buoyancy-Driven Instabilities in Single-Bubble Sonoluminescence (BDiSL) Principal Investigator: Thomas J. Matula, University of Washington
    Project Scientist: Nancy Hall , Glenn Research Center
    Project Manager: Kirk Logsdon , Glenn Research Center
    Currently scheduled to be launched: Flight #9A.1 - Date 10/2005
    Why:
    To quantify the role of instabilities, particular buoyancy, as it pertains to light intensity and bubble dynamics.
    To expand the parameter space of sonoluminescence through the observation and measurement of light intensity and bubble dynamics.
    To understand why a small amount of noble gas (such as helium, argon, or xenon) to the gas in the bubble increases the intensity of the emitted light dramatically. How:
    Levitate a bubble to generate sonoluminescence and perform ambient and maximum bubble size imaging under constant pressure condition and during extinction ramp experiments. Perform sonoluminescence integrated light emission measurement under constant pressure condition.
    These results will be used to validate and test theoretical models.
    A bubble collapse results in a liquid jet pushing through the bubble from top to bottom. This example is thought to occur in hydrodynamic cavitation phenomena such as pitting of ship propeller blades.

    80. Sonoluminescence In Space: The Critical Role Of Buoyancy In Stability And Emissi
    sonoluminescence IN SPACE THE CRITICAL ROLE OF BUOYANCY IN STABILITYAND EMISSION MECHANISMS. Abstract. INTRODUCTION AND MOTIVATION
    http://microgravity.grc.nasa.gov/fcarchive/fluids/papers/Holt/Sonoluminescence_i
    SONOLUMINESCENCE IN SPACE: THE CRITICAL ROLE OF BUOYANCY IN STABILITY AND EMISSION MECHANISMS
    Abstract
    INTRODUCTION AND MOTIVATION
    Sonoluminescence is the term used to describe the emission of light from a violently collapsing bubble. Sonoluminescence ("light from sound") is the result of extremely nonlinear pulsations of gas/vapor bubbles in liquids when subject to sufficiently high amplitude acoustic pressures. In a single collapse, a bubble’s volume can be compressed more than a thousand-fold in the span of less than a microsecond. Even the simplest consideration of the thermodynamics yields pressures on the order of 10,000 ATM. and temperatures of at least 10,000K. On the face of things, it is not surprising that light should be emitted from such an extreme process. Since 1990 (the year that Gaitan discovered light from a single bubble) there has been a tremendous amount of experimental and theoretical research in stable, single-bubble sonoluminescence (SBSL).
    Yet there remain at least four unexplained phenomena associated with SBSL in 1g:
    · the light emission mechanism itself

    A  B  C  D  E  F  G  H  I  J  K  L  M  N  O  P  Q  R  S  T  U  V  W  X  Y  Z  

    Page 4     61-80 of 99    Back | 1  | 2  | 3  | 4  | 5  | Next 20

    free hit counter