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Superresolution in holographic microscopy
Říha, René ; Komrska, Jiří (referee) ; Chmelík, Radim (advisor)
An approach that uses a two dimensional phase grating in certain distance behind a specimen to enhance the resolution in digital holographic microscopy is proposed. By theoretical considerations and with simulations the properties of new the arrangement are explored and the method of numerical reconstruction is described. The proposed approach is verified by electromagnetic simulation. Technical aspects and potential difficulties aren't involved.
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Application of the FDTD technique to modelling of imaging in biophotonics
Říha, René ; Richter, Ivan (referee) ; Petráček, Jiří (advisor)
This thesis deals with the problem of practical application of FDTD technique for simulation of image formation in coherence controlled holographic microscope. Various ways for obtaining scattering matrices are explored in detail and the optimal technique based on a rigorous calculation of the far field is proposed. The scattering matrix, containing information about the observed sample, is subsequently used in analytic calculation of holographic signal; two levels of approximation of pupil function are also evaluated. The results are compared with a traditional approach based on Rytov approximation resulting in specification of the parameter domain where the approximation is applicable. Based on the simulations of the microscope, the dependence of axial resolution on apertures of the objective and the condenser and sensitivity of the signal to changes of refractive index of the sample is also studied.
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Application of the FDTD technique to modelling of imaging in biophotonics
Říha, René ; Richter, Ivan (referee) ; Petráček, Jiří (advisor)
This thesis deals with the problem of practical application of FDTD technique for simulation of image formation in coherence controlled holographic microscope. Various ways for obtaining scattering matrices are explored in detail and the optimal technique based on a rigorous calculation of the far field is proposed. The scattering matrix, containing information about the observed sample, is subsequently used in analytic calculation of holographic signal; two levels of approximation of pupil function are also evaluated. The results are compared with a traditional approach based on Rytov approximation resulting in specification of the parameter domain where the approximation is applicable. Based on the simulations of the microscope, the dependence of axial resolution on apertures of the objective and the condenser and sensitivity of the signal to changes of refractive index of the sample is also studied.
|
|
|
Superresolution in holographic microscopy
Říha, René ; Komrska, Jiří (referee) ; Chmelík, Radim (advisor)
An approach that uses a two dimensional phase grating in certain distance behind a specimen to enhance the resolution in digital holographic microscopy is proposed. By theoretical considerations and with simulations the properties of new the arrangement are explored and the method of numerical reconstruction is described. The proposed approach is verified by electromagnetic simulation. Technical aspects and potential difficulties aren't involved.
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