1 |
F. Wyrowski, Iterative quantization of amplitude hologram, Appl. Opt. 28, 3864, 1989
DOI
ScienceOn
|
2 |
D. Prongué, H. P. Herzig, R. Dändliker, and M. T. Gale, Optimized kinoform structures for highly efficient fanout elements, Appl. Opt. 31, 5706, 1992
DOI
|
3 |
정재완, 이승걸, Iterative Fourier transform algorithm의 개선, Hankook Kwangak Hoeji, 9, 6, 390, 1998, Dec.
|
4 |
정필호, 조두진, 2 단계 iterative Fourier transform 알고리즘을 이용한 회절무늬 소자의 설계에 관한 연구, OSK annual meeting 10, 296, 2000. Feb.
|
5 |
A. V. Kuzmenko, P. A. Iezhov, and J. T. Kim, Fourier Transforms: Approach to Scientific Principles, InTech, 1- 22, 2011
|
6 |
H. Yan, X-ray nanofocusing by kinoform lenses: A comparative study using different modeling approaches, Phys. Rev. B, 81, 075402, Feb., 2010
|
7 |
J. R. Fienup, Phase retrieval algorithms: a comparison, Appl. Opt., 21, 2758,1982
DOI
ScienceOn
|
8 |
W. H. Lee, Binary computer-generated holograms, Appl. Opt.,18, 3661, 1979
DOI
ScienceOn
|
9 |
R. W. Gerchberg and W. O. Saxton, A practical algorithm for the image diffraction plane pictures, Optik, 35, 237, 1972
|
10 |
U. Schnars and W. Jüptner, Direct recording of holograms by a CCD target and numerical reconstruction, Appl. Opt., 33, 179, 1994
DOI
|
11 |
A. W. Lohmann and D. P. Paris, Binary Fraunhofer holograms generated by computer, Appl. Opt., 6, 1739, 1967
DOI
ScienceOn
|
12 |
D. Gabor, A new microscopic principle, Nature, 161, 777, 1948
DOI
|
13 |
J. W. Goodman and R. W. Lawrence, Digital image formation from electronically detected holograms, Appl. Phys. Lett., 11, 77, 1967
DOI
|
14 |
V. Arrizón, M. Testorf, S. Sinzinger, and J. Jahns, Iterative optimization of phase-only diffractive optical elements based on a lenslet array, J. Opt. Soc. Am. A, 17, 12, 2157, 2000
DOI
ScienceOn
|
15 |
O. Ripoll, V. Kettunen, and H. P. Herzig, Review of iterative Fourier transform algorithm for beam shaping, Opt. Eng., 43, 11, 2549, 2004
DOI
ScienceOn
|