Dr. FRANCISCO JOEL CERVANTES LOZANO
Resumen curricular:
Dr. Cervantes is a Physics Engineering graduate from the University of Guanajuato. He completed his master's and doctorate studies at the Centro de Investigaciones en Óptica A.C (CIO). Later he did his post-doctorate at Utsunomiya University in Japan, doing this stay in two different laboratories (Biomedical Engineering and Photonics Laboratory). He made short research stays at the Optical+Optical Engineering Laboratory at The University of Western Australia. His most important lines of research are biomedical engineering and optical instrumentation related to vision problems. Research interests: Polarization Diffraction Polarization-sensitive optical coherence tomography (PS-OCT) Image processing
Enlaces
Perfil de Investigador SNII:
Bases de datos bibliográficas:
Publicaciones del académico:
- Total retardance measurements based on the complex Fourier coefficients for the rotating polarizer analyzer system
- Complex Fourier demodulation approach for the dual rotation polarizer-analyzer polarimeter
- Preliminary results of the implementation of a low-cost Shack-Hartmann wavefront sensor
- Integrated optical imaging system composed of optical time-of-flight and optical coherence tomography
- Fresnel Gaussian shape invariant applied to optical diffraction grating calculation
- Calibration approach for a rotating polarizer analyzer polarimeter for retardance measurements
- Integration of time-of-flight distance measurement and optical coherence tomography for extending its operating range
- Retinal imaging with optical coherence tomography and low-loss adaptive optics using a 2.8-mm beam size
- Retardance parameters measurements by employing a rotating polarizer-analyzer polarimeter
- Experimental study of inner structure in Infrared supercontinuum generation pumped by multi-pulse dynamics
- Retinal imaging with optical coherence tomography and low‐loss adaptive optics using a 2.8‐mm beam size
- Analysis of a passive component signal by means of optical coherence tomography system
- A 2.8-mm beam diameter system for retinal imaging with OCT and adaptive optics
- Ultra-high resolution polarization-sensitive optical coherence tomography for imaging of the retinal nerve fiber layer
- Geometrical Thickness Measurement of Thin Films by a Transmitted Gaussian Beam
- Influence of coherence length, signal-to-noise ratio, log transform, and low-pass filtering on layer thickness assessment with OCT in the retina
- Mueller-matrix modeling and characterization of a dual-crystal electro-optic modulator
- Measurement of glucose concentration in a thin turbid medium by a transmitted Gaussian beam
- Refractive index and geometrical thickness measurement of thin optical samples by a transmitted Gaussian beam
- Refractive index and geometrical thickness measurement of a transparent pellicle in air by Gaussian beam defocusing
- Defocusing properties of Gaussian beams for measuring refractive index of thin transparent samples
- Photoacoustic characterization of human skin phantom with superficial anomalies: Preliminary results