| [1] | Damian V S, Bojan M, Schiopu P, et al. White light interferometry applications in nanometrology[C]//Proceedings of SPIE-The International Society for Optical Engineering, 2009, 7297:72971H. |
| [2] | Manske E, Jager G, Hausotte T, et al. Recent developments and challenges of nanopositioning and nanomeasuring technology[J]. Measurement Science Technology, 2012, 23(7):074001. |
| [3] | Laude B, Martino A D, Drevillon B. Three-dimensional microscopy through white light interferometry[C]//Proceedings of SPIE, 2002, 4621:1-7. |
| [4] | Zhang J W, Belouadah R, Lebrun L, et al. Magnetoelectric phenomena of insulator polymers after corona poling:procedure and experiments[J]. Sensors Actuators A Physical, 2014, 220:112-117. |
| [5] | Gurov I, Volynsky M. White-light microscopy for evaluating transparent films using switching model of overlapped fringes[C]//American Institute of Physics, 2010:295-300. |
| [6] | Dai G, Pohlenz F, Xu M, et al. Accurate and traceable measurement of nano-and microstructures[J]. Measurement Science Technology, 2006, 17(3):545-552. |
| [7] | Chen S, Palmer A W, Grattan K T, et al. Digital signal-processing techniques for electronically scanned optical-fiber white-light interferometry[J]. Appl Opt, 1992, 31(28):6003-6010. |
| [8] | Kino G S, Chim S S C. Mirau correlation microscope[J]. Applied Optics, 1990, 29(26):3775-3783. |
| [9] | Hart M, Vass D G, Begbie M L. Fast surface profiling by spectral analysis of white-light interferograms with fourier transform spectroscopy[J]. Applied Optics, 1998, 37(10):1764-1769. |
| [10] | Jiang Y. Fourier transform white-light interferometry for the measurement of fiber-optic extrinsic fabry-prot interferometric sensors[J]. IEEE Photonics Technology Letters, 2008, 20(2):75-77. |
| [11] | Lei L, Deng L, Fan G, et al. A 3D micro tactile sensor for dimensional metrology of micro structure with nanometer precision[J]. Measurement, 2014, 48(1):155-161. |
| [12] | Sun Y, Duthaler S, Nelson B J. Autofocusing in computer microscopy:selecting the optimal focus algorithm[J]. Microscopy Research Technique, 2004, 65(3):139-149. |
| [13] | Harasaki A, Schmit J, Wyant J C. Improved vertical-scanning interferometry[J]. Applied Optics, 2000, 39(13):2107. |
| [14] | O'Mahony C, Hill M, Brunet M, et al. Characterization of micromechanical structures using white-light interferometry[J]. Measurement Science Technology, 2003, 14(10):1807-1814. |
| [15] | Kramar J A. Nanometre resolution metrology with the molecular measuring machine[J]. Measurement Science Technology, 2005, 16(11):2121. |
| [16] | Schmidt, Hausotte, Gerhardt, et al. Investigations and calculations into decreasing the uncertainty of a nanopositioning and nanomeasuring machine (NPM-machine)[J]. Measurement Science Technology, 2007, 18(2):2026. |
| [17] | Kapusi D, Machleidt T. White light interferometry in combination with a nanopositioning and nanomeasuring machine (NPMM)[C]//Proceedings of SPIE-The International Society for Optical Engineering, 2007, 6616:661607. |
| [18] | Hoffmann J, Weckenmann A. Traceable profilometry with a 3D nanopositioning unit and zero indicating sensors in compensation method[C]//Journal of Physics:Conference Series, 2005, 13:228. |
| [19] | Subbarao M, Tyan J K. Selecting the optimal focus measure for autofocusing and depth-from-focus[J]. Pattern Analysis Machine Intelligence IEEE Transactions on, 1998, 20(8):864-870. |
| [20] | Misumi I, Gonda S, Kurosawa T, et al. Reliability of parameters of associated base straight line in step height samples:Uncertainty evaluation in step height measurements using nanometrological AFM[J]. Precision Engineering, 2006, 30(1):13-22. |
| [21] | Lei L, Li Y, Deng X, et al. Laser-focused Cr atomic deposition pitch standard as a reference standard[J]. Sensors Actuators A Physical, 2015, 222:184-193. |
| [22] | Tibrewala A, Hofmann N, Phataralaoha A, et al. Development of 3D force sensors for nanopositioning and nanomeasuring machine[J]. Sensors, 2009, 9(5):3228-3239. |