Biomedical Engineering Reference
In-Depth Information
[6] K.J. Chalut, W.J. Brown, A. Wax, Quantitative phase microscopy with asynchronous digital holography,
Opt. Express 15 (2007) 3047
3052.
[7] T. Ikeda, G. Popescu, R.R. Dasari, M.S. Feld, Hilbert phase microscopy for investigating fast dynamics in
transparent systems, Opt. Lett. 30 (2005) 1165
1167.
[8] J. Munoz, M. Strojnik, G. Paez, Phase recovery from a single undersampled interferogram, Appl. Opt. 42
(2003) 6846
6852.
[9] T. Kiire, S. Nakadate, M. Shibuya, Simultaneous formation of four fringes by using a polarization
quadrature phase-shifting interferometer with wave plates and a diffraction grating, Appl. Opt. 47 (2008)
4787
4792.
[10] G. Rodriguez-Zurita, N.I. Toto-Arellano, C. Meneses-Fabian, J.F. Vazquez-Castillo, One-shot phase-
shifting interferometry: five, seven, and nine interferograms, Opt. Lett. 33 (2008) 2788
2790.
[11] N. Brock, J. Hayes, B. Kimbrough, J. Millerd, M. North-Morris, M. Novk, et al., Dynamic interferometry,
Proc. SPIE 5875 (2005) 58750F.
[12] Y. Zhu, L. Liu, Y. Zhi, Z. Luan, D. Liu, Phase detection from two phase-shifting interferograms, Proc.
SPIE 6671 (2007) 66711D.
[13] N.T. Shaked, M.T. Rinehart, A. Wax, Dual-interference-channel quantitative-phase microscopy of live
cell dynamics, Opt. Lett. 34 (2009) 767
769.
[14] M.G. Nomarski, Microinterferometre differentiel a ondes polarisees, J. Phys. Radium 16 (1955) S9
S13.
[15] D. Fu, S. Oh, W. Choi, T. Yamauchi, A. Dorn, Z. Yaqoob, et al., Quantitative DIC microscopy using an
off-axis self-interference approach, Opt. Lett. 35 (2010) 2370
2372.
[16] B. Heise, D. Stifter, Quantitative phase reconstruction for orthogonal-scanning differential phase-contrast
optical coherence tomography, Opt. Lett. 34 (2009) 1306
1308.
[17] S.V. King, A. Libertun, R. Piestun, C.J. Cogswell, C. Preza, Quantitative phase microscopy through
differential interference imaging, J. Biomed. Optics 13 (2008) 024020.
[18] M.R. Arnison, K.G. Larkin, C.J.R. Sheppard, N.I. Smith, C.J. Cogswell, Linear phase imaging using
differential interference contrast microscopy, J. Microsc. 214 (2004) 7
12.
[19] M.A. Choma, M.V. Sarunic, C.H. Yang, J.A. Izatt, Sensitivity advantage of swept source and Fourier
domain optical coherence tomography, Opt. Express 11 (2003) 2183
2189.
[20] M.A. Choma, A.K. Ellerbee, C.H. Yang, T.L. Creazzo, J.A. Izatt, Spectral-domain phase microscopy,
Opt. Lett. 30 (2005) 1162
1164.
[21] C.K. Hitzenberger, A.F. Fercher, Differential phase contrast in optical coherence tomography, Opt. Lett.
24 (1999) 622
624.
[22] J. Zhang, B. Rao, L.F. Yu, Z.P. Chen, High-dynamic-range quantitative phase imaging with spectral
domain phase microscopy, Opt. Lett. 34 (2009) 3442
3444.
[23] Y. Zhu, N.T. Shaked, L.L. Satterwhite, A. Wax, Spectral-domain differential interference contrast
microscopy, Opt. Lett. 36 (2011) 430
432.
[24] N.T. Shaked, L.L. Satterwhite, N. Bursac, A. Wax, Whole-cell-analysis of live cardiomyocytes using
wide-field interferometric phase microscopy, Biomed. Opt. Express 1 (2010) 706
719.
[25] T. Korhonen, S.L. Hanninen, P. Tavi, Model of excitation-contraction coupling of rat neonatal ventricular
myocytes, Biophys. J. 96 (2009) 1189
1209.
[26] R. Nielson, B. Koehr, J.B. Shear, Microreplication and design of biological architectures using dynamic-
mask multiphoton lithography, Small 5 (2009) 120
125.
[27] S. Basu, P.J. Campagnola, Properties of crosslinked protein matrices for tissue engineering applications
synthesized by multiphoton excitation, J. Biomed. Mater. Res. A 71A (2004) 359
368.
[28] F.L. Yap, Y. Zhang, Protein and cell micropatterning and its integration with micro/nanoparticles
assembly, Biosens. Bioelectron. 22 (2007) 775
788.
[29] M.A. Schofield, Y.M. Zhu, Fast phase unwrapping algorithm for interferometric applications, Opt. Lett.
28 (2003) 1194
1196.
[30] T.J. Flynn, Two-dimensional phase unwrapping with minimum weighted discontinuity, J. Opt. Soc. Am.
A Opt. Image Sci. Vis. 14 (1997) 2692
2701.
Search WWH ::
Custom Search