University of South Floridafaculty.cas.usf.edu/mkkim/research stuff/DH intro.pdf · University of...
Transcript of University of South Floridafaculty.cas.usf.edu/mkkim/research stuff/DH intro.pdf · University of...
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M.K. Paul Kim, ProfessorDigital Holography and Microscopy Laboratory
Dept. of PhysicsUniversity of South Florida
Tampa, FL [email protected]
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DHML: Digital Holography and Microscopy Laboratory
James Gass Aaron Dakof Dan Parshall Lingfeng Yu - Zeiss
Chris Mann - Eugene Wigner Fellow, ORNL
Alejandro Rostrepo - Colombia National U (visiting)
Kaveh Azartash - UC Irvine (visiting)
Nilanthi Warnasooriya – Texas A&M
Alex Khmaladze – U Michigan, Ann Arbor
Mariana Potcoava – U Colorado, Boulder / JILA
Leo Krzewina Bill Ash David Clark Xiao Yu Changgeng Liu
Chun-Min Lo, USF Biophysics David Richards, USF Ophthalmology Curtis Margo, USF Ophthalmology Don Hilbelink, USF Anatomy Kendall Morris, USF Physiology Zong Ping Chen, UC Irvine Enrico Gratton, Bioengineering, UC Irvine Roman Castaneda, National University, Medellin, Colombia
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outline
DHM: Digital Holographic Microscopy
OPU: Optical Phase Unwrapping
TIRHM: Total Internal Reflection Holographic Microscopy
DHM of Laser Microsurgery
Some current projects
Optical Tomography and Topography
Conclusions
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4
outline
DHM: Digital Holographic Microscopy
OPU: Optical Phase Unwrapping
TIRHM: Total Internal Reflection Holographic Microscopy
DHM of Laser Microsurgery
Some current projects
Optical Tomography and Topography
Conclusions
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Holography
Generation of holographic interference by superposition of object and reference waves
Reconstruction of holographic image by illumination of the hologram with another reference wave
Real space holography: optical generation & optical reconstruction Computer generated holography (CGH): numerical generation & optical
reconstruction Digital holography (DH): optical generation & numerical reconstruction
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digital holography: general geometry
M. K. Kim, "Principles and techniques of digital holographic microscopy," SPIE Reviews 1, 50 (2010).
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Angular spectrum at z = 0
Optical wave at z = 0
Optical field at z
numerical diffraction : angular spectrum method
{ }0 0 0 0 0 0 0 0 0 0( , ;0) ( , ;0) ( , ;0)exp[ ( )]x y x yA k k E x y E x y i k x k y dx dy= = − +∫∫F
{ }10 0 0 0 0( , ;0) ( , ;0) ( , ;0)exp[ ( )]x y x y x y x yE x y A k k A k k i k x k y dk dk−= = +∫∫F
[ ]{ } [ ]{ }0
( , ; ) ( , ;0)exp exp[ ( )]
exp
x y z x
z
y x yE x y z A k k ik z i k x k y dk dk
E ik z
= +
=
∫∫-1F F
2 2 2z x yk k k k= − −
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angular spectrum method
plane wave decomposition two (2) Fourier transforms
- one at z = 0, and - one at any arbitrary z
no minimum distance requirement
3 peaks for off-axis holography- 0-order term: ref. and obj.- +/- 1st order: twin image terms
numerical filtering of angular spectrum to suppress zero-order and twin image- noise control
physical filtering by placing an aperture at a Fourier plane of hologram
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minimum & maximum distances
2
min 0
20
max
2 1
2
xz X
Xz
δλ
λ
= −
=
angular spect Huygens conv
0 ~ 20,000 mz µ=
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digital holography procedure
( )exp zik z×FFT⇒ ⇒
1FFT −⇒ ⇒
HH’ FFEEa EEp
HH’: hologram FF: angular (Fourier) spectrum multiply propagation factor EEa: amplitude image EEp: phase image
{ } [ ]{ }0( , ; ) exp zE x y z E ik z= -1F F
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C.J. Mann, L.F. Yu, C.M. Lo, and M.K. Kim, "High-resolution quantitative phase-contrast microscopy by digital holography". Optics Express, 13: p. 8693-8698 (2005).
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outline
DHM: Digital Holographic Microscopy
OPU: Optical Phase Unwrapping
TIRHM: Total Internal Reflection Holographic Microscopy
DHM of Laser Microsurgery
Some current projects
Optical Tomography and Topography
Conclusions
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Unwrapping of 2pi-discontinuities in phase images
Software-unwrapping Detection of discontinuities & addition of integer-multiples of 2pi Subjective and ambiguous topologies Very computation intensive: ~5 minutes per image for images presented here
Optical phase-unwrapping Two- or three-wavelength interference technique Completely deterministic Very fast ~100 ms Light computational load
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Multi-wavelength Digital Holography Apparatus
Microscope objectives OBJ are 20xLenses L11 and L12 has f=25 cm L21 - f=17.5 cm and lens L22 – f=10 cm. The ND filters and polarizers P1 and P2 are used to control the intensity Apertures A is to select only the central part of the Gaussian beam. The beams are collimated between L11 and L21 and between L12 and L22 and again is collimated after OBJ1 and OBJ21/22 (i.e. its waist is kept at “infinity”)
3.562
0
1.781
20.5 um x 20.5 um x -3.64E+3:3.64E+3 (470 x 470)
angular spectrum203
45
124
144 um x 144 um x -203:203 (470 x 470)
HH Lambda1
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Dual-wavelength phase imaging digital holography
noise ~ 12 nm
noise ~ 130 nm
noise ~ 12 nm
1 212
1 2
: beat wavelength(Axial range)λ λλ λ
Λ =−
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QPM by DH: - OPU vs. software unwrapping
(a) (b) (c) (d)
(e) (f)
(a) amplitude image; phase mapsreconstructed with (b) 633 nm and(c) 532 nm; (d) 3D rendering of thedual-wavelength phase map (verticalscale in microns);software unwrapped phase mapsreconstructed with (e) 633 nm and(f) 532 nm for comparison. Allimages are 78x78 microns (256x256pixels).
polished coal particle treated with pyrolysis
A. Khmaladze, A. Restrepo-Martinez, M. Kim, R. Castaneda, and A. Blandon, "Simultaneous dual-wavelength reflection digital holography applied to the study of the porous coal samples". Applied Optics, 47: p. 3203-3210 (2008).
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Dual-wavelength PIDH: movie of live rotifer
1W PIDH 2W PIDHamplitude
area = 70µm x 70µmpixels = 360 x 360z = 79~80µm
C.J. Mann, L.F. Yu, and M.K. Kim, "Movies of cellular and sub-cellular motion by digital holographic microscopy". Biomed. Eng. Online, 5 (2006).
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outline
DHM: Digital Holographic Microscopy
OPU: Optical Phase Unwrapping
TIRHM: Total Internal Reflection Holographic Microscopy
DHM of Laser Microsurgery
Some current projects
Optical Tomography and Topography
Conclusions
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TIRHM: total internal reflection holographic microscopy
modulation of TIR wavefront by variation of interface detection and imaging of modulated wavefront by DH quantitative profiling of interface
W. M. Ash, and M. K. Kim, "Digital holography of total internal reflection," Optics Express 16, 9811-9820 (2008).
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TIRHM Apparatus
a) Schematic•Laser- DPSS Nd:YAG @ 532nm•Camera- Sony Firewire CCD
b) Operational systemc) Close-up of TIR prism
• w/ 10x microscope objectives
b)
c)
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Amoeba Sample: Time lapse phase imagery
t+0 mins t+7 mins
t+14 mins t+21 mins
50μm
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outline
DHM: Digital Holographic Microscopy
OPU: Optical Phase Unwrapping
TIRHM: Total Internal Reflection Holographic Microscopy
DHM of Laser Microsurgery
Some current projects
Optical Tomography and Topography
Conclusions
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laser cellular microsurgery apparatus
Nd:YVO4 laser for microsurgery: 0.4uJ/pls, 12ns, 20kHz, 10e9W/cm2 LD for holographic microscopy
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laser microbeam- study cell structure and function - injection of exogenous materials - free the internal constituents - study developing organisms—such as in the formation of the nervous system - reduce the thickness of the zona pellucida layer of the ovum to improve human in vitro fertility
quantitative phase evaluation by DHM during laser incision of red blood cells
quantitative phase microscopy of cellular laser microsurgery
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DHM movies of laser microsurgery
rat kangaroo kidney epithelial (PTK2) cells:
phase image movie during surgery
phase change movie : swelling of chromosomes during ablation, with subsequent recovery after laser is removed.
rod cell from goldfish retina: drastic morphological change following a slightdamage of one end of cell
L Yu, S Mohanty, J Zhang, S Genc, MK Kim, MW Berns, Z Chen, “Digital holographic microscopy for quantitative cell dynamic evaluation during laser microsurgery,” Opt. Express 17, 12031-12038 (2009)
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outline
DHM: Digital Holographic Microscopy
OPU: Optical Phase Unwrapping
TIRHM: Total Internal Reflection Holographic Microscopy
DHM of Laser Microsurgery
Some current projects
Optical Tomography and Topography
Conclusions
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Thermal Lensing and Absorption Coefficient
-1000 -800 -600 -400 -200 0 200 400 600 800 1000-0.2
0.0
0.2
0.4
0.6
0.8
Exp Theor
230m
W (R
adia
ns)
r (um)
Absorption coefficients of 4.5 x 10-4 and 3.8 x 10-4 cm-1 (@532nm) were successfully determined for our samples of methanol and ethanol,
2 2
0
1 2 /1 exp1 2 / 1 2 /
( / )
t r w dtt t
P l dn dT
φ θτ τ τ
αθκλ
′ = − − ′ ′+ +
= −
∫
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Deformation and Young’s Modulus Measurement of Thin Film
Young’s modulus of polyacrylamide film measured to be 14.5 kN/m2
2 mm dia x 0.5 mm height brass plate (13.5 mg) on 1 mm thick polyacrylamide film
Applications:- Force measurement of cellular motility- Characterization of polyelectrolyte multilayer film growth for tissue engineering
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Digital Gabor holography for particle tracking
polystyrene (10um) spheres fixed on cover slip piezo transducer drives for x- and z-movements sub-nanometer control of x,z-movements
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Multi-mode contrast generation from a single hologram
Multi-mode contrast generation from a single hologram: a) amplitude contrast; b) quantitative phase contrast; c) dark field; d) Zernike phase contrast; e) DIC; f) spiral DIC.
( )1 ,x yf fδ−
( ) ( )1 1 ,x yi f fδ− − ( )exp 2 x x y yi f fπ ∆ + ∆ ( )exp iθ
amplitude contrast amplitude contrast Dark field
ZPC DIC spiral DIC
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outline
DHM: Digital Holographic Microscopy
OPU: Optical Phase Unwrapping
TIRHM: Total Internal Reflection Holographic Microscopy
DHM of Laser Microsurgery
Some current projects
Optical Tomography and Topography
Conclusions
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Digital Interference Holography: the process
acquire a hologram from camera calculate 2D optical field array at many equally spaced z-distances
- this produces 3D volume of optical field for one wavelength step the wavelength
- and calculate another 3D volume of optical field for the new wavelength calculate 3D volumes of optical field for many wavelengths numerically superpose all 3D volumes of optical field final single volume of optical field with tomographic peaks
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1 wave
2 waves
3 waves
10 waves
axial range: Λ = λ2/∆λ axial resolution: δ = Λ/N
superposition of many wavelengths
a) eikz 2
b) eikz + ei k+∆k
z
2
c) eikz + ei k+∆k
z + e
i k+2∆k
z
2
d) 10 frequencies 2
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(a) x-y cross-section, FOV=1100 x 1100 µm2; (b) y-z cross sections at various x values, 1100 x 280.35 µm2, from left to right, x1, x2, and x3; (c) x-z cross sections at various y values, 280.35 x 1100 µm2, from top to bottom, y1, y2, and y3; Z = 29.7 µm; NX= NY=256 pixels; NZ= 50 pixels; s = the slope; h1, h2: heights.
3D human optic nerve disk
M.C. Potcoava, C.N. Kay, M.K. Kim, and D.W. Richards, "In vitro imaging of ophthalmic tissue by digital interference holography". Journal of Modern Optics, 57: p. 115-123 (2010).
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3D fingerprints by DIH
FOV =5 x 5 mm ∆λ : 0.560-0.600 µmZ= 742.57 µmΛ= 420.5 µmdz= 8.41 µmDX= DY= 19.6 µmNX x NY x NZ= 256 x 256 x 50
y-z cross sectional
image
x-z cross sectional
image
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full-color wide-field OCT by PSIM
OCT: optical coherence tomography
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3D fingerprint by PSIM
MC Potcoava & MK Kim, “Fingerprint biometry applications of digital holography and low-coherence interferography,” Appl. Opt. 48, H9-15 (2009)
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X-Y X-Z 3D
image volume = 7.2mm x 7.2mm x 335umvoxels = 480 x 480 x 67voxel volume = 15um x 15um x 5um
color WFOCT: colored dime
L.F. Yu and M.K. Kim, "Full-color three-dimensional microscopy by wide-field optical coherence tomography". Optics Express, 12: p. 6632-6641 (2004).
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Conclusions: Capabilities of DHM
High resolution quantitative phase microscopy Single-exposure image capture and numerical focusing Versatile manipulation of complex optical fields
- Numerical focusing- Aberration, - Wave front curvature, etc.
Quantitative label-free microscopy of live cellular and intra-cellular structures and processes
Biomedical tissue tomography: ophthalmology Microstructure imaging and testing Particle imaging and tracking: cytometry Biomaterials characterization etc. …