• 제목/요약/키워드: thermoacoustic laser pair

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열음향(Thermoacoustic) 레이저의 음향파 특성 분석 (The Analysis of Acoustic Waves generated by a TA(ThermoAcoustic) Laser Pair)

  • 오승진;;이윤준;신상웅;임상훈;천원기
    • 한국태양에너지학회 논문집
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    • 제31권6호
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    • pp.1-7
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    • 2011
  • Sound waves and acoustic energy generated by two identical TA (ThermoAcoustic) lasers were analyzed and studied. One end of the ceramic stack was heated by a thin NiCr wire wound around that end. The other end of the stack was cooled by natural convection of atmospheric air. The wavelength of the sound waves generated by a single TA laser was four times the tube length and the amplitude of the waves increased with the heating rate. SPL (SoundPressure Level) meters and microphones were employed to measure and study the sound waves at different distances from the glass tube opening and at the focusing point of the TA laser pair for different laser position arrangements. The sound waves of the two TA lasers at the focusing point were found to be almost 180 degrees out of phase when the openings of the two lasers were very close to each other and the angle between the laser axes was small. When the two TA lasers were placed far apart, the sound wave amplitudes and the phase difference between the two laser outputs varied periodically with time. The frequencies of the sound waves changed when the openings of the two TA lasers were in close vicinity and the angle between the laser axes exceeded a certain value. In this case, the glass tube opening was no longer a pressure anti-node and the wavelength of the fundamental mode was not equal to four times the tube length.

Transient and synchronization behaviors of a standing-wave TA (Thermoacoustic) laser pair

  • Hyun, Jun Ho;Oh, Seung Jin;Shin, Sang Woong;Chen, Kuan;Chun, Wongee
    • 한국태양에너지학회 논문집
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    • 제34권1호
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    • pp.48-57
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    • 2014
  • The transient and synchronization behaviors of a TA (thermo acoustic) laser pair were investigated experimentally for various crossing angles and different separation distances between the laser openings. Sound waves generated by the lasers were measured and analyzed at or near the focusing point by means of microphones, SPL meters, and a commercial software called Signal-Express. The two TA lasers were acoustically coupled through the air mass between their openings, and the only mode-locking operation that could be achieved was the one that was nearly $180^{\circ}C$ out of phase. The time to achieve synchronization was found to be dependent upon the initial mistuning of the frequencies and the crossing angle between the laser axes. The synchronization process could also be accelerated by turning on the laser with the lower power input first.