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Abel inversion of axially-symmetric shock wave flows

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Abstract.

Finite-fringe interferograms produced for axisymmetric shock wave flows are analyzed by Fourier transform fringe analysis and an Abel inversion method to produce density field data for the validation of numerical models. For the Abel inversion process, we use basis functions to model phase data from axially-symmetric shock wave structure. Steady and unsteady flow problems are studied, and compared with numerical simulations. Good agreement between theoretical and experimental results is obtained when one set of basis functions is used during the inversion process, but the shock front is smeared when another is used. This is because each function in the second set of basis functions is infinitely differentiable, making them poorly-suited to the modelling of a step function as is required in the representation of a shock wave.

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Authors and Affiliations

  1. ALDiR Laboratory, Department of Physics, Faculty of Science, Australian National University, ACT 0200, Australia

    A. F. P. Houwing

  2. Shock Wave Research Center, Institute of Fluid Science, Tohoku University, 980-8577, Sendai, Aoba, Japan

    K. Takayama, T. Hashimoto, K. Koremoto & H. Mitobe

  3. Laboratory of High Temperature Gas Dynamics, Institute of Mechanics, Chinese Academy of Sciences, No. 15 Beisihuanxi Road, (100080), Beijing, China

    Z. Jiang

  4. Faculty of Engineering, University of Technology, Broadway NSW, 2007, Sydney, Australia

    M. J. Gaston

Authors
  1. A. F. P. Houwing
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  2. K. Takayama
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  3. Z. Jiang
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  4. T. Hashimoto
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  5. K. Koremoto
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  6. H. Mitobe
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  7. M. J. Gaston
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Corresponding author

Correspondence to A. F. P. Houwing.

Additional information

Communicated by R. Boyce

Received: 12 November 2003, Accepted: 21 October 2004, Published online: 31 March 2005[/PUBLISHED]

PACS:

47.40.-x, 42.40.Kw, 02.30.Zz

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Houwing, A.F.P., Takayama, K., Jiang, Z. et al. Abel inversion of axially-symmetric shock wave flows. Shock Waves 14, 21–28 (2005). https://doi.org/10.1007/s00193-005-0244-y

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  • DOI: https://doi.org/10.1007/s00193-005-0244-y

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