Publications in Special
Issues
S1. J. Rosen, B. Salik,
and A. Yariv,
"Depth of focus enhancement and twisted beams using radial harmonic pupil
filters," (Special Issue: Optics in 1995) OPN 6 (12), 14-15 (1995).
S2. J. Rosen and A. Yariv,
"Three dimensional reconstruction of random radiation sources,"
(Special Issue: Optics in 1996) OPN 7 (12), 37-38 (1996).
S3. J. Rosen ,
"Three-dimensional spatial electro-optical correlator," (Special
Issue: Optics in 1998) OPN 9 (12), 45-46 (1998)
S4. Y. Rivenson, A. Stern,
and J. Rosen, “Imaging Through Partially Occluding Media Using Compressive
Digital Holographic Sensing,”
(Special Issue: Optics
in 2012) OPN 13 (12), p. 32 (2012).
Invited Publications
I1. J.
Shamir, J. Rosen,
U.
Mahlab and H. J. Caulfield, "Optimization methods for pattern
recognition," SPIE CR-40,
2-24 (1992).
I2. J. Rosen,
"Three-dimensional pattern recognition by optical correlators," Asian J. of Physics
8(3), 323-333 (1999).
I3. J.
Rosen and Y. Li,
"Recent progress in the three-dimensional
electrooptical correlator," In Smart
Imaging Systems, B. Javidi Ed., pp. 133-157
(SPIE Press 2001). |
|
I4. J.
Rosen, "Electrooptical correlators
for three-dimensional pattern recognition" In Image
Recognition and Classification: Algorithms, Systems, and Applications,
by B. Javidi Ed., pp. 217-247 (Marcel
Dekker, Inc. 2002). |
|
I5. J. Rosen and B. Javidi , "Steganography and encryption systems based on spatial correlators with meaningful output images" In Optical and Digital Techniques for Information Security, by B. Javidi Ed., pp. 59-94 (Springer-Verlag, 2005). |
I6. J. Rosen and D. Abookasis "Holographic three-dimensional
computer-aided imaging" In Current Research on Image Processing for 3D
Information Displays, V. V. Petrov Ed., SPIE 5821, pp. 1-21 (2005)
I7. D. Abookasis and J. Rosen
“NOISE-3D: Stereoscopic imaging through scattering media” OPTICS IN INFORMATION
SYSTEMS, 16(2) (July 2005).
I8. J. Rosen, and G. Brooker, “Single-Channel Incoherent Interferometer as a Tool for Recording Digital Holograms" In Handbook of Interferometers: Research, Technology and Applications, F. Columbus Ed., (Nova Science Publishers 2009). |
I9. J. Rosen, G. Brooker, G. Indebetouw and N. T. Shaked, "A Review of Incoherent Digital Fresnel Holography," Journal of Holography and Speckle 5, 124–140 (2009). |
I10. J. Rosen, B. Katz and G. Brooker, "Review of Three-Dimensional Holographic Imaging by Fresnel Incoherent Correlation Hologram" 3D Research 1, 010103-(1-9) (2009). |
|
I11. J. Rosen and B. Katz, "Synthetic aperture digital holography," FRINGE´09, W. Osten and M. Kujawinska Eds. pp. 118-122 (Springer 2009). |
I12.
J. Rosen, B. Katz and G.
Brooker, |
|
I13. |
|
I14. |
I15.
Laser Focus World Magazine, March 2013, 49-51.
I16. R. Kelner, and
I17. E. Shtraikh, M. Zieder, R. Kelner, and J. Rosen, “In-line digital
holography using adaptive phase pinhole on the Fourier plane,” Asian J. of
Physics 24(12), 1659-1666 (2015). (INVITED)
I18. R. Kelner, and J.
Rosen, “Spatial light modulator based Fresnel incoherent
digital holography” Asian J. of Physics 25(7) 797-808 (2016). (INVITED)
Reviewed Publications in
Scientific and Professional Journals
J1.
J.
Shamir, H. J. Caulfield and J. Rosen, "Pattern recognition
using reduced information content filters," Appl. Opt.
26, 2311-2314 (1987).
J2.
J. Rosen and J. Shamir, "Distortion invariant
pattern recognition with phase filters," Appl. Opt. 26, 2315 -2319
(1987).
J3.
J. Rosen and J. Shamir, "Circular harmonic phase
filters for efficient rotation-invariant pattern recognition," Appl. Opt. 27,
2895-2899 (1988).
J4.
J. Rosen and J. Shamir, "Scale-invariant
pattern recognition with logarithmic radial harmonic filters," Appl. Opt. 28,
240-244 (1989).
J5.
U.
Mahlab, J. Rosen and J. Shamir, "Iterative generation of
holograms on spatial light modulator," Opt. Lett.
15, 556-558 (1990).
J6.
J. Rosen, U.
Mahlab and J.
Shamir, "Adaptive learning with
joint transform correlators," Opt. Eng. 29, 1101-1106 (1990).
J7.
U.
Mahlab, J. Rosen and J. Shamir, "Iterative generation of
complex reference functions in a joint-transform correlator," Opt.
Lett. 16, 330-332 (1991).
J8.
J. Rosen, U.
Mahlab and J.
Shamir, "Complex reference
discriminant functions implemented iteratively on joint
transform correlator," Appl. Opt.,
30, 5111-5115 (1991).
J9.
J. Rosen and J. Shamir, "Application of the
projection-onto-constraint-sets algorithm for optical pattern
recognition," Opt. Lett., 16, 752-754 (1991).
J10.
J. Rosen, T. Kotzer,
and J.
Shamir, "Optical implementation of
phase extraction pattern recognition," Opt.
Comm., 83, 10-14 (1991).
J11.
T. Kotzer,
J. Rosen,
and J.
Shamir, "Phase extraction pattern
recognition," Appl. Opt. 31, 1126-1137 (1992).
J12.
T. Kotzer,
J. Rosen, and J.
Shamir, "Multiple-object input in
nonlinear correlation," Appl. Opt. 32, 1919 -1932 (1993).
J13.
J. Rosen, L. Shiv, J. Stein and J. Shamir, "Electro-optic hologram generation
on spatial light modulator," JOSA A, 9, 1159-1166
(1992).
J14.
J. Rosen, M. Segev, J.
Shamir and A. Yariv,
"Interferometric electrooptical signal processors with partially coherent
illumination," JOSA A 9, 1498-1507 (1992).
J15.
J. Rosen and J. Shamir, "Triplator
- Optical signal processor based on rotational shearing interferometer," Opt.
Comm. 97, 115-129 (1993).
J16.
J. Rosen, M. Segev, and A. Yariv,
"Wavelength multiplexed computer generated volume holography," Opt.
Lett. 18, 744-746 (1993).
J17.
J. Rosen, "Learning in correlators
based on projections onto constraint sets," Opt. Lett. 18,
1183-1185 (1993).
J18.
J. Rosen, M. Segev, A. Yariv,
and J. Barchen "Reduction in the reconstruction
error of computer-generated holograms by photorefractive volume
holography," Opt. Lett. 18, 1858-1860 (1993).
J19.
R. Piestun, J. Rosen and J. Shamir, "Generation of continuous
complex-valued functions for a joint transform correlator," Appl.
Opt. 20, 4398-4405 (1994).
J20.
J. Rosen, "Synthesis of
non-diffracting beams in free space," Opt. Lett. 19, 369-371
(1994).
J21.
J. Rosen and A. Yariv,
"Synthesis of an arbitrary axial field profile by computer-generated
holograms" Opt. Lett. 19, 843-845 (1994).
J22.
T. Kotzer,
J.
Rosen, and J.
Shamir, "Application of serial and
parallel projection methods to correlation filter design," Appl. Opt. 34,
3883-3895 (1995).
J23.
J. Rosen, B. Salik, A. Yariv and
H-K Liu, "Pseudonondiffracting slitlike beam and its analogy to the pseudonondispersing
pulse," Opt. Lett. 20, 423-425 (1995).
J24.
J. Rosen and A. Yariv,
"Longitudinal partial coherence of optical radiation," Opt. Comm. 117,
8-12 (1995).
J25.
D. Eliyahu, R. A. Salvatore,
J. Rosen, A.
Yariv, and J.-J. Drolet, "Retardation and
reduction of pulse distortion by group-velocity dispersion through pulse
shaping," Opt. Lett. 20, 1412-1414 (1995).
J26.
B. Salik,
J. Rosen, and A. Yariv, "One-dimensional beam shaping," JOSA A 12,
1702-1706 (1995).
J27.
J. Rosen, B. Salik,
and A. Yariv,
"Pseudo-nondiffracting beams generated by radial harmonic functions,"
JOSA A 12, 2446-2457 (1995).
J28.
B. Salik,
J. Rosen, and A. Yariv, "Nondiffracting images under coherent
illumination," Opt. Lett. 20, 1743-1745 (1995).
J29.
J. Rosen and A. Yariv,
"Snake beam: a paraxial arbitrary focal line," Opt. Lett. 20,
2042-2044 (1995).
J30.
J. Rosen and A. Yariv,
"Three-dimensional imaging of random radiation sources," Opt. Lett.
21, 1011-1013 ( 1996).
J31.
B. Salik,
J. Rosen, and A. Yariv, "Average coherence approximation for
partially coherent optical systems," JOSA A 13, 2086-2090 (1996).
J32.
J. Rosen and A. Yariv,
"General theorem of spatial coherence: application to three-dimensional
imaging," JOSA A 13, 2091-2095 (1996).
J33.
J. Rosen and A. Yariv,
"Reconstruction of longitudinal distributed incoherent sources,"
Opt. Lett. 21, 1803-1805 (1996).
J34.
J. Rosen, "Three-dimensional
optical Fourier transform and correlation," Opt. Lett. 22,
964-966 (1997).
J35.
J. Rosen, "Three-dimensional
electro-optical correlation," JOSA A 15,
430-436 (1998).
J36.
J. Rosen, "Three-dimensional
joint transform correlator," Appl. Opt. 37, 7538-7544 (1998).
J37.
J. Rosen, "Computer-generated holograms
of images reconstructed on curved surfaces," Appl. Opt. 38, 6136-6140
(1999).
J38.
Y. Li
and J. Rosen,
"Three-dimensional pattern recognition with a single two-dimensional
synthetic reference function," Appl. Opt. 39, 1251-1259 (2000).
J39.
J. Rosen and M. Takeda,
"Longitudinal spatial coherence
applied for surface profilometry," Appl. Opt. 39, 4107 - 4111
(2000).
J40.
Y. Li,
K. Kreske and J. Rosen, "Security and encryption
optical systems based on a correlator with significant output images," Appl. Opt.
. 39, 5295- 5301 (2000).
J41.
Y. Li
and J. Rosen, "Three-dimensional correlator
with general complex filters," Appl. Opt. 39, 6561-6572 (2000).
J42.
Y. Li, D. Abookasis and J. Rosen,
"Computer-generated
holograms of three-dimensional realistic objects recorded without
wave interference," Appl. Opt. 40, 2864-2870 (2001).
J43.
D. Abookasis, O. Arazi, J.
Rosen, and B. Javidi "Security optical
systems based on a joint transform correlator with significant output
images," Opt.
Eng. 40, 1584-1589 (2001).
J44.
J. Rosen, and B. Javidi "Hidden images in halftone
pictures," Appl. Opt. 40, 3346-3353 (2001).
J45.
W. Wang,
H. Kozaki, J. Rosen and M. Takeda,
" Synthesis of longitudinal coherence
functions by spatial modulation of an extended light source: a new
interpretation and experimental verifications," Appl. Opt. 41,
1962-1971 (2002).
J46.
Y. Li
and J. Rosen, "Object recognition using three-dimensional optical
quasi-correlation," JOSA A 19, 1755-1762 (2002).
J47.
M. Gokhler, Z.-H. Duan, J.
Rosen, and M. Takeda "Spatial coherence
radar applied for tilted surface profilometry" Opt. Eng. 42, 830-836 (2003).
J48.
Y. Li
and J. Rosen, "Scale-invariant recognition of three-dimensional objects
using quasi-correlator," Appl. Opt.42, 811-819 (2003).
J49.
D. Abookasis and J. Rosen,
"Computer-generated holograms of three-dimensional objects synthesized
from their multiple angular viewpoints," JOSA A 20, 1537-1545
(2003).
J50.
D. Abookasis and J. Rosen,
"Digital correlation hologram implemented on a joint transform
correlator," Opt. Comm. 225, 31–37 (2003).
J51.
J. Rosen and D. Abookasis, "Seeing Through Biological Tissues Using the Fly Eye Principle,"
Opt. Express 11,
3605-3611 (2003).
J52.
J. Rosen and D. Abookasis, "Noninvasive
Optical Imaging by Speckle Ensemble," Opt. Lett. 29, 253-255
(2004).
J53.
D. Abookasis and J. Rosen,
"NOISE 2 imaging system: Seeing through scattering tissue by correlation
with a point," Opt. Lett. 29, 956-958 (2004).
J54.
D. Abookasis, O. Montal, O. Abramson and J. Rosen, "Watermarks
encrypted in a concealogram and deciphered by a
modified joint-transform correlator," Appl. Opt. 44, 3019-3023
(2005).
J55.
M. Gokhler, and J. Rosen, "Synthesis of multiple-peak
spatial degree of coherence for imaging through absorbing media" Appl.
Opt. 44, 2921-2927 (2005).
J56.
M. Gokhler, and J. Rosen, "General configuration for using
the longitudinal spatial coherence effect," Opt. Comm. 252, 22–28
(2005). (2005).
J57.
D. Abookasis and J. Rosen,
"Stereoscopic imaging through scattering media," Opt.
Lett. 31, 724-726 (2006). Chosen to be published in Virtual Journal for Biomedical Optics
J58.
J. Rosen, G. Indebetouw,
and G.
Brooker, "Homodyne scanning holography," Opt. Express 14,
4280-4285 (2006).
J59.
J59. D. Abookasis, A. Batikoff, H. Famini and J. Rosen, "Performance comparison of
iterative algorithms for generating digital correlation holograms used in
optical security systems,” Appl. Opt. 45, 4617-4624 (2006).
J60.
D. Abookasis and J. Rosen,
"Three types of computer-generated hologram synthesized from multiple
angular viewpoints of a three-dimensional scene," Appl. Opt. 45, 6533-6538
(2006).
J61.
G. Indebetouw,
Y. Tada, J. Rosen, and G. Brooker “Scanning holographic microscopy with resolution
exceeding the Rayleigh limit of the objective by superposition of
off-axis holograms,” Appl. Opt. 46, 993-1000 (2007). Review article on No. J61 in
J62.
N. T. Shaked, S. Messika, S. Dolev and J. Rosen, “Optical Solution for Bounded NP-Complete
Problems,” Appl. Opt. 46, 711-724 (2007).
J63.
J. Rosen, and G.
Brooker “Digital spatially incoherent Fresnel holography,”
Opt. Lett. 32, 912-914 (2007).
J64.
J. Rosen, and G.
Brooker “Fluorescence incoherent color holography,” Opt. Express 15,
2244-2250 (2007).
J65.
N. T. Shaked, J.
Rosen and A. Stern,
“Integral holography: white-light single-shot hologram acquisition,”
Opt. Express 15, 5754-5760 (2007).
J66.
N. T. Shaked, T.
Tabib, G. Simon, S. Messika,
S. Dolev and J. Rosen, “Optical Binary-Matrix Synthesis
for Solving Bounded NP-complete Combinatorial Problems,” Opt. Eng. 46,
108201-1:11(2007).
J67.
B. Katz, N. T. Shaked, and J. Rosen, “Synthesizing computer generated holograms with reduced number of perspective
projections,” Opt. Express 15, 13250-13255 (2007).
J68.
J. Rosen, and G. Brooker
“Non-Scanning Motionless Fluorescence Three-Dimensional Holographic
Microscopy,” Nature Photonics 2, 190-195 (2008). .
J69.
N. T. Shaked, and
J. Rosen, “Modified Fresnel Computer-Generated Hologram Directly Recorded by
Multiple-Viewpoint Projections,” Appl. Opt. 49, D21-D27 ( 2008).
J70.
N. T. Shaked, B. Katz,
and J. Rosen, “Fluorescence multicolor hologram recorded by using a macrolens array", Opt. Lett. 33,
1461-1463(2008).
J71.
N. T. Shaked, and
J. Rosen, "Multiple-viewpoint projection holograms synthesized by spatially-incoherent
correlation with broadband functions", JOSA
A 25, 2129-2138 (2008).
J72.
N. T. Shaked, G.
Segev and J. Rosen, "Three-dimensional object recognition
using a quasi-correlator invariant to imaging distances," Opt.
Express 16, 17148–17153 (2008).
J73.
N. T. Shaked, Y. Yitzhaky and J. Rosen, "Incoherent holographic imaging through
thin turbulent media", Opt. Comm. 282, 1546–1550 (2009).
J74.
N. T. Shaked, B. Katz
and J. Rosen, "Review of Three-Dimensional
Holographic Imaging by Multiple-Viewpoint-Projection Based
Methods," Appl. Opt. 48, H120-H136 (2009).
J75.
B. Katz, and J. Rosen, "Super-Resolution in Incoherent Optical Imaging using Synthetic Aperture
with Fresnel Elements," Opt. Express 18,
962–972 (2010).
J76.
Z. Liu, T. Gemma, J. Rosen and M. Takeda,
"Improved Illumination System for Spatial Coherence Control,"
Appl. Opt. 49, D12-D16 (2010).
J77.
B. Katz, D. Wulich
and J. Rosen, "Optimal noise suppression in FINCH system with optimal
resolution configuration," Appl. Opt. 49, 5757-5763 (2010).
J78.
B. Katz, and
J79.
G.
Brooker, N.
Siegel, V. Wang and
J80.
Y.
Rivenson, A. Stern and
J81.
J. Rosen, N.
Siegel, and G.
Brooker, "Theoretical and experimental demonstration of resolution beyond the
Rayleigh limit by FINCH fluorescence microscopic imaging," Opt.
Express 19, 26249-26268 (2011).
J82.
B. Katz, J. Rosen, R. Kelner and G.
Brooker, "Enhanced resolution and throughput
of Fresnel incoherent correlation holography (FINCH) using dual diffractive
lenses on a spatial light modulator (SLM)," Opt. Express 20,
9109-9121(2012).
J83.
Y.
Rivenson, A. Rot, S. Balber, A. Stern
and J. Rosen, "Recovery of partially occluded objects by applying compressive Fresnel
holography," Opt. Lett.,Vol.37, 1757-1759
(2012).
J84.
J. Rosen, and G.
Brooker, "Fresnel incoherent correlation holography
(FINCH) – A review of research," Advanced Optical Technologies 1, 151–169 (2012).
J85.
N.
Siegel, J. Rosen, and G. Brooker, "Reconstruction of
objects above and below the objective focal plane with dimensional fidelity by
FINCH fluorescence microscopy" Opt. Express 20,
19822–19835 (2012).
J86.
R. Kelner and J. Rosen, "Spatially incoherent
single channel digital Fourier holography" Opt. Lett. 37, 3723–3725
(2012).
J87.
Y.
Rivenson, A. Stern and J. Rosen,
"Reconstruction guarantees for compressive tomographic holography,"
Opt. Lett. 38, 2509-2511 (2013).
J88.
R. Kelner, J. Rosen, and G. Brooker "Enhanced
resolution in Fourier incoherent single channel holography (FISCH) with reduced
optical path difference" Opt. Express 21, 20131–20144
(2013).
J89. N. Siegel, J. Rosen, and G. Brooker, "Faithful reconstruction of digital holograms captured by FINCH using a Hamming window function in the Fresnel propagation," Opt. Lett. 38, 3922–3925 (2013).
J90.
Y.
Rivenson, B. Katz, R.
Kelner and
J91.
G.
Brooker, N. Siegel, J. Rosen, N. Hashimoto, M. Kurihara,
and A. Tanabe "In-line FINCH super resolution digital holographic
fluorescence microscopy using a high efficiency transmission liquid crystal
GRIN lens," Opt. Lett. 38, 5264-5267 (2013).
J92.
Y. Baar, J. Rosen, and N. Shashar,"Circular polarization of transmitted light by Sapphirinidae copepods," PLoS
One 9, e86131, 1-6 (2014).
J93.
R. Kelner, B. Katz, and J. Rosen, “Common
path in-line holography using enhanced joint object reference digital
interferometers,” Opt. Express 22, 4995-5009 (2014).
J94.
R. Kelner, B. Katz, and J. Rosen, “Optical
sectioning using a digital Fresnel incoherent-holography-based confocal imaging
system,” Optica 1, 70-74 (2014).
J95.
Y. Kashter, and J. Rosen,
“Enhanced-resolution using modified configuration of Fresnel incoherent
holographic recorder with synthetic aperture," Opt. Express 22,
20551-20565 (2014).
J96.
J. Rosen, and R.
Kelner, “Modified Lagrange
invariants and their role in determining transverse and axial imaging resolutions
of self-interference incoherent holographic systems,” Opt. Express 22(23),
29048–29066 (2014).
J97.
S. Dolev, N.
Fandina, and J. Rosen,"Holographic
Parallel Processor for Calculating Kronecker Product," Natural Computing
14(3) 433-436 (2015).
J98.
Y. Kashter, Y. Rivenson, A.
Stern and
J99.
J. Rosen, R. Kelner, and Y. Kashter, “Incoherent digital holography with phase-only
spatial light modulator,” J. of Micro/Nanolith. MEMS MOEMS 14(4), 041307:1-9 (2015). (INVITED)
J100.
R. Kelner and J. Rosen, “Parallel-mode scanning optical
sectioning using digital Fresnel holography with three wave interference
phase-shifting,” Opt. Express 24(3), 2200-2214 (2016).
J101.
R. Kelner and J. Rosen, “Methods of Single-Channel Digital
Holography for Three-Dimensional Imaging,” IEEE Trans. Industrial Informatics 12(1),
220 - 230 (2016). (INVITED)
J102.
Y. Kashter, A.
Vijayakumar, Y. Miyamoto and
J103.
A.
Vijayakumar, Y. Kashter, R. Kelner and
J104.
J. Rosen, and R. Kelner, “Three-Dimensional
Imaging by Self-Reference Single-Channel Digital Incoherent Holography,” IEEE
Trans. Industrial Informatics 12(4),
1571-1583 (2016). (INVITED)
J105. A. Vijayakumar and J. Rosen, “Spectrum and space resolved 4D imaging by coded aperture correlation holography (COACH) with diffractive objective lens,” Opt. Lett. 42(5), 947-950 (2017).
J106.
A.
Vijayakumar, Y. Kashter, R. Kelner
and
J107.
A.
Vijayakumar, B. Vinoth, I. V. Minin, J. Rosen, O. V. Minin,
and C.-J. Cheng “Experimental demonstration of square Fresnel zone plate with chiral side
lobes,” Appl. Opt. 56(13), F128-F133 (2017).
J108. A.
Vijayakumar and J. Rosen, “Interferenceless coded
aperture correlation holography – a new technique for recording incoherent
digital holograms without two-wave interference,” Opt. Express 25(12)
13883-13896 (2017).
J109. Y. Kashter, A.
Vijayakumar, and J. Rosen, "Resolving images by blurring - a new
superresolution method using a scattering mask between the observed objects and
the hologram recorder,” Optica 4(8), 932-939 (2017).
J110. M.
Kumar, A. Vijayakumar and J. Rosen, “Incoherent digital holograms
acquired by interferenceless coded aperture correlation holography system
without refractive lenses” Scientific Reports 7, 11555 (2017).
J111. M. R. Rai, A. Vijayakumar and J. Rosen, “SingleCamera Shot Interferenceless Coded Aperture Correlation Holography,” Opt. Lett. 42(19), 3992-3995 (2017).
J112.
A.
Bulbul, A.
Vijayakumar and J. Rosen, “Partial Aperture Imaging by System with Annular Phase Coded Masks,” Opt.
Express 25(26) 33315-33329 (2017).
J113.
S.
Mukherjee, A.
Vijayakumar and J. Rosen, “3D Imaging through Scatterers with Interferenceless Optical System,” Scientific Reports
8, 1134 (2018).
J114.
M. R. Rai, A.
Vijayakumar and J. Rosen, “Extending the Field of View by a Scattering
Window in an I-COACH System,” Opt. Lett. 43(5) 1043-1046 (2018).
J115. M. R. Rai, A.
Vijayakumar and J. Rosen, “Non-linear
Adaptive Three-Dimensional Imaging with interferenceless coded aperture correlation
holography (I-COACH)” Opt. Express 26(14) 18143-18154 (2018).
J116.
S.
Mukherjee and J. Rosen, “Imaging through Scattering Medium by Adaptive Non-linear Digital Processing,” Scientific
Reports 8, 10517 (2018).
J117.
A.
Bulbul, A.
Vijayakumar and J. Rosen, "Superresolution far-field imaging by
coded phase reflectors distributed only along the boundary of synthetic
apertures," Optica 5, 1607-1616 (2018).
J118. M. R. Rai, A.
Vijayakumar, Y.
Ogura and J. Rosen, “Resolution Enhancement
in Nonlinear Interferenceless COACH with
a Point Response of Subdiffraction Limit Patterns,”
Opt.
Express 27(2), 391-403 (2019).
J119.
J. Rosen, and A.
Vijayakumar “Review of 3D Imaging by Coded Aperture Correlation
Holography (COACH),” Appl. Sci. 9, 605 (2019).
J120.
A.
Vijayakumar, C.
Rosales-Guzman, M. R. Rai, J. Rosen, O. V. Minin, I. V. Minin and A. Forbes, “Generation
of structured light by multilevel orbital
angular momentum holograms,”
Opt.
Express 27(5), 6459-6470 (2019).
J121.
J. Rosen, A.
Vijayakumar, M.
Kumar, M. R. Rai, R. Kelner, Y. Kashter, A.
Bulbul, and S.
Mukherjee, “Recent advances in
self-interference incoherent digital holography,” Advances in Optics and
Photonics 11(1), 1-66 (2019).
J122.
M. R. Rai, A.
Vijayakumar and J. Rosen,
“Superresolution beyond the diffraction limit using phase spatial light modulator between
incoherently illuminated objects and the entrance of an incoherent imaging
system,” Opt.
Lett. 44(7), 1572-1575 (2019).
J123.
A.
Vijayakumar, D. Jayavel,
M. Muthaiah, S.
Bhattacharya and J. Rosen, “Implementation
of a speckle-correlation-based optical lever with extended dynamic
range,” Appl. Opt. 58(22)
5982-5988 (2019).
J124.
M. R. Rai, and J. Rosen, “Noise
suppression by controlling the sparsity of the point spread function in
interferenceless coded aperture correlation holography (I-COACH),” Opt.
Express 27(17),
24311-24323 (2019).
J125.
N. Hai and J.
Rosen, “Interferenceless and motionless method for recording digital holograms
of coherently illuminated 3-D objects by coded aperture correlation holography
system,” Opt. Express 27(17), 24324-24339 (2019).
J126.
A.
Vijayakumar, S. Bhattacharya and J. Rosen, “Spatial multiplexing
technique for improving dynamic range of speckle correlation based optical
lever,” Scientific Reports 9, 16035
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