[1] Shimizu E T. Directional discrimination in the self-mixing type laser Doppler velocimeter. Appl. Opt., 1987, 26(2):4541～4544

[2] Wang W M, Grattan K T V, Palmer A W et al.. Self-mixing interference inside a single mode diode laser for optical sensing applications. IEEE J. Light Wave Technology, 1994, 12(9):1577～1587

[3] Wang W M, Boyle W J O, Grattan K T V et al.. Self-mixing interference in a diode laser: Experimental observations and theoretical analysis. Appl. Opt., 1993, 32(9):1551～1558

[4] Henry C H. Theory of the linewidth of semiconductor lasers. IEEE J. Quant. Electron., 1982, QE-18(2):259～263

[5] Agrawal G P. Line narrowing in a single-mode injection laser due to external optical feedback. IEEE J. Quant. Electron., 1984, QE-20(5):468～471

[6] Churnside J H. Laser Doppler velocimetry by modulating a CO2 laser with back scattered light. Appl. Opt., 1984, 23(1):61～65

[7] Shinohara S. Laser Doppler velocimeter using the self-mixing effect of a semiconductor laser diode. Appl. Opt., 1986, 25(9):1417～1419

[8] Kato J, Yamato J. Non-contact optical probing sensor applying optical feedback effects in laser diodes. Meas. Sci. Technol., 1991, 3(4):146～153

[9] Kato J, Kikuchi N. Optical feedback displacement sensor using a laser diode and its performance improvement. Meas. Sci. Technol., 1995, 6(1):45～52

[10] Shinohara H S. Compact and high-precision range finder with wide dynamic range and its application. IEEE Trans. Instrum. Meas., 1992, 41(1):40～44

[11] Merlo S, Donati S. Reconstruction of displacement waveforms with a single-channel laser-diode feedback interferometer. IEEE J. Quant. Electron., 1997, QE-33(4):527～531

[12] Donati S, Giuliani G. Laser diode feedback interferometer for measurement of displacements without ambiguity. IEEE J. Quant. Electron., 1995, QE-31(1):113～119

[13] Roos P A, Stephens M, Wieman C E. Laser vibrometer based on optical feedback-induced frequency modulation of a single-mode laser diode. Appl. Opt., 1996, 35(34):6754～6761

[14] Servagent N, Bosch T, Lescure M. A laser displacement sensor using the self-mixing effect for modal analysis and defect detection. IEEE Trans. Instru. and Meas., 1997, 46(4):847～850

[15] Bosch T, Servagent N. A displacement sensor for spectrum analysis using the optical feedback in a single-mode laser diode. IEEE Instr. and Meas. Tech. Conference, 1997, May19～21. 870～873

[17] Suzuki T, Sasaki O, Maruyama T. Phase-locked laser diode interferometer for surface profile measurement. Appl. Opt., 1989, 28(20):4407～4410

[18] Bosch T, Servagent N, Chellali R et al.. Three-dimensional object construction using a self-mixing type scanning laser range finder. IEEE Trans. Instrum. and Meas., 1998, 47(5):1326～1329

[19] Hauptmann M A, Grattan K T V, Palmer A W et al.. Silicon resonator sensor systems using self-mixing interferometry. Sensors and Actuators (A), 1996, 55:71～77

[20] Ukita H, Uenishi Y, Tanaka H. Aphotomicrodynamic system with a mechanical resonator monolithicalintergratetwith laser diode on gallim arsenide. Science, 1993, 260(5109):786～788

[21] Shibata T, Shinohara S. Laser speckle velocimeter using self-mixing laser diode. IEEE Trans. Instrum. Meas., 1996, 45(2):499～503

[22] Suzuki T, Muto T, Sasaki O et al.. Self-mixing type of phase-locked laser diode interferometer. Appl. Opt., 1999, 38(3):543～548

[23] Mourat G, Servagent N, Bosch T. Distance measurement using the self-mixing effect in a three-electrode distributed Bragg reflector laser diode. Opt. Engng., 2000, 39(3):738～743

[24] Addy R C, Palmer A W. Effects of external reflector alignment in sensing applications of optical feedback in laser diode. J. Lightwave Technology, 1996, 14(12):2672～2676

[25] King P G R, Steward G J. Metrology with an optical master. Rev. Sci., 1963, 17:180～182

[26] Seo D, Park J, Mcinerney J G et al.. Multiple feedback effects in asymmetric external cavity semiconductor lasers. IEEE J. Quant. Electron., 1989, QE-25(11):2229～2237

[27] Yu Yanguang, Qiang Xifu. The correct interpretation about a phenomenon of the self-mixing interference in semiconductor laser. Chinese J. Laser (B), 2000, 9(1):24～29