[1] Bruning J. H., Herriott D. R., Gallagher J. E.. Digital wavefront measuring interferometer for testing optical surfaces and lenses[J]. Appl. Opt., 1974, 13(11): 2693~2703
[2] Leger C, Elezgaray J, Argoul F. Experimental demonstration of diffusionlimited dynamics in electrodeposition[J]. Phys. Rev. Lett., 1997, 78(26): 5010~5013
[3] Y. D. Su, S. J. Chen, T. L. Yeh. Commonpath phaseshift interferometry surface plasmon resonance imaging system[J]. Opt. Lett., 2005, 30(12): 1488~1490
[4] Onuma K, Kameyama T, Tsukamoto K. Insitu study of surface phenomena by realtime phaseshift interferometry[J]. J. Crys. Grow.,1994, 137(3~4): 610~622
[5] Johnson J L, Dorney T D, Mittleman D M. Enhanced depth resolution in terahertz imaging using phaseshift interferometry[J]. Appl. Phys. Lett., 2001, 78(6): 835~837
[6] J. Schwider, R. Burow, K. E. Elssner et al.. Digital wavefront measuring interferometer: Some systematic error sources[J]. Appl. Opt., 1983, 22(21): 3421~3432
[7] YeouYen Cheng, James C. Wyant, Phase shifter calibration in phaseshifting interferometry[J]. Appl. Opt., 1985, 24(18): 3049~3052
[8] AI C, Wyant J C. Effect of piezoelectric transducer nonlinearity on phaseshift interferometry[J]. Appl. Opt., 1987, 26(6): 1112~1116
[9] J. Schwider. New compensating fourphase algorithm for phase shift interferometry[J]. Opt. Engng., 1993, 32(8): 1883~1885
[10] G. Stoilov, T. Dragostinov. Phasestepping interferometry: Fiveframe algorithm with an arbitrary step[J]. Opt. Laser. Engng., 1997, 28(1): 61~69
[11] M. Afifi, K. Nassim, S. Rachafi. Fiveframe phaseshifting algorithm insensitive to diode laser power variation[J]. Opt. Commun., 2001, 197(1): 37~42
[12] Chen Mingyi, Guo Hongwei, Wei Chunlong. Algorithm immune to tilt phase shifting error for phase shifting interferometers[J]. Appl. Opt., 2000, 39(22): 3894~3898
[15] Q. Liu, L. Z. Cai, M. Z. He. Digital correction of wave-front errors caused by detector nonlinearity of second order in phaseshifting interferometry[J]. Opt. Commun., 2004, 239(1~3): 223~228
