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The strong dependence of the intensity of single bubble sonoluminescence (SBSL) on water temperature observed in experiment can be accounted for by the temperature dependence of the material constants of water, most essentially of the…

chao-dyn · Physics 2009-10-31 Sascha Hilgenfeldt , Detlef Lohse , Willy Moss

Sonoluminescence (SL) is the phenomenon in which acoustic energy is (partially) transformed into light. It may occur by means of many or just one bubble of gas inside a liquid medium, giving rise to the terms multi-bubble- and single-bubble…

The widening phenomenology of Single Bubble Sonoluminescence (SBSL) is shown to be in good agreement with a new approach to condensed matter, based on the QED coherent interactions. Some remarkable properties of SBSL are shown to emerge…

Quantum Physics · Physics 2007-05-23 M. Buzzacchi , E. Del Giudice , G. Preparata

The Single Bubble SonoLuminescence is a phenomenon where the vapor bubble trapped in a liquid collapse by emitting of a light. It is very known that the temperature inside the bubble depends on the radius, during the collapse, the…

Fluid Dynamics · Physics 2018-04-11 Mahamadou Adama Maiga , M Adama , Adama Maiga M

In single-bubble sonoluminescence, a bubble trapped by a sound wave in a flask of liquid is forced to expand and contract; exactly once per cycle, the bubble emits a very sharp ($< 50 ps$) pulse of visible light. This is a robust phenomenon…

High Energy Physics - Phenomenology · Physics 2009-10-31 Alan Chodos , Sarah Groff

A preliminary results of measurement of the spectra of Single Bubble Sonoluminescence (SBSL) in water are presented. Analysis concentrates on similarity and differences of spectra from black-body radiation like shape.

General Physics · Physics 2016-08-03 Jaroslav Antos

A cavitation bubble inside a liquid, under a specific set of conditions, can get trapped in an antinode of the ultrasonically driven standing wave and periodically emits visible photons (1,2). This conversion of sound to light phenomenon,…

Quantum Physics · Physics 2022-03-23 Mohammadreza Rezaee , Yingwen Zhang , James L. Harden , Ebrahim Karimi

UV continua observed in multi-bubble and single-bubble sonoluminescence spectra of hydrogen-containing liquids have the same physical nature - radiative dissociation of electronically excited hydrogen molecules (and possibly hydrides of…

Plasma Physics · Physics 2009-09-25 Boris P. Lavrov

Sonoluminescence is the intriguing phenomenon of strong light flashes from tiny bubbles in a liquid. The bubbles are driven by an ultrasonic wave and need to be filled with noble gas atoms. Approximating the emitted light by blackbody…

Other Condensed Matter · Physics 2009-06-19 Andreas Kurcz , Antonio Capolupo , Almut Beige

Micromachined pits on a substrate can be used to nucleate and stabilize microbubbles in a liquid exposed to an ultrasonic field. Under suitable conditions, the collapse of these bubbles can result in light emission (sonoluminescence, SL).…

It is proposed that shock wave dynamics within the gas of a small bubble explain sonoluminescence, the emission of visible radiation. As the bubble radius oscillates, shock waves develop from spherical sound waves created inside the gas…

Plasma Physics · Physics 2007-05-23 Sohrab Rahvar

Sonoluminescence is the phenomena of light emission from a collapsing gas bubble in a liquid. Theoretical explanations of this extreme energy focusing are controversial and difficult to validate experimentally. We propose to use molecular…

Computational Physics · Physics 2018-05-16 Steven J. Ruuth , Seth Putterman , Barry Merriman

Careful re-examination of typical experimental data made it possible to show that the UV continua observed in multi-bubble (MBSL) and single-bubble (SBSL) sonoluminescence spectra have the same physical nature - radiative dissociation of…

Plasma Physics · Physics 2007-05-23 B. P. Lavrov

Based on the model proposed by Hilgenfeldt {\it at al.} [Nature {\bf 398}, 401 (1999)], we present here a comprehensive theory of thermal radiation in single-bubble sonoluminescence (SBSL). We first invoke the generalized Kirchhoff's law to…

Soft Condensed Matter · Physics 2009-11-11 Wang-Kong Tse , P. T. Leung

Sound driven gas bubbles in water can emit light pulses. This phenomenon is called sonoluminescence (SL). Two different phases of single bubble SL have been proposed: diffusively stable and diffusively unstable SL. We present phase diagrams…

chao-dyn · Physics 2009-10-28 Sascha Hilgenfeldt , Detlef Lohse , Michael Brenner

Sonoluminescence is a process in which a strong sound field is used to produce light in liquids. We explain sonoluminescence as a phase transition from ordinary fluorescence to a superradiant phase. We consider a spin-boson model composed…

Materials Science · Physics 2015-06-22 M. Aparicio Alcalde , Hernando Quevedo , Nami Fux Svaiter

A commonly accepted view is that stable Single Bubble Sonoluminescence (SBSL) can only be achieved in the presence of a noble gas or hydrogen. In air-seeded bubbles, the content of diatomic gasses is burned off to leave the small amount of…

Fluid Dynamics · Physics 2007-05-23 Mogens T. Levinsen , Jeppe Seidelin Dam

Sonoluminescence occurs when tiny bubbles rilled with noble gas atoms are driven by a sound wave. Each cycle of the driving field is accompanied by a collapse phase in which the bubble radius decreases rapidly until a short but very strong…

Other Condensed Matter · Physics 2010-11-11 Andreas Kurcz , Antonio Capolupo , Almut Beige

Sonoluminescence is a phenomenon which is known for some time, relatively easy to produce but still not fully understood. A milestone was discovery of procedure for creating Single Bubble Sonoluminescene (SBSL) \cite{gaitan} in 1989.…

Classical Physics · Physics 2021-01-05 Jaroslav Antos

A key parameter underlying the existence of sonoluminescence (SL)is the time relative to SL at which acoustic energy is radiated from the collapsed bubble. Light scattering is one route to this quantity. We disagree with the statement of…

Fluid Dynamics · Physics 2009-11-06 K. R. Weninger , P. G. Evans , S. J. Putterman
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