
Dr. MANUEL SALVADOR BEETHOVEN BRAVO MEDINA
Resumen curricular:
El Dr. Manuel Salvador Beethoven Bravo Medina es profesor del Centro Universitario de Ciecnias Exactas e Ingenierías de la Universidad de Guadalajara. Es Ingeniero en comunicaciones y electrónica; maestro en ciencias en ingeniería electrónica y computación; y doctor en ciencias de la electrónica y la computación por parte de la Universidad de Guadalajara. Es miembro del Sistema Nacional de Investigadores nivel I y cuenta con perfil PRODEP. Tiene 23 productos de investigación, de los cuales 6 son artículos JCR, tiene un índice Hde 5 y más de 90 citas. Sus lineas de investigación incluyen la instrumentación electro-fotonica, la interferometría y la detección de planetas extrasolares.
Perfil de Investigador SNII:
Perfil PRODEP:
Bases de datos bibliográficas:
Publicaciones del académico:
- Plastic Optical Fiber Spectral Filter Based on in-Line Holes
- All-POF Spectral Filter Based on In-Line Holes
- Initial conditions retrieving through Fourier analysis in a rotating retarder Stokes polarimeter
- Off-Axis Three-Mirror Optical System Designs: From Cooke’s Triplet to Remote Sensing and Surveying Instruments
- Off-Axis Three-Mirror Optical System Designs: From Cooke’s Triplet to Remote Sensing and Surveying Instruments
- Ensquared Energy and Optical Centroid Efficiency in Optical Sensors: Part 1, Theory
- Off-axis three-mirror optical system designs: From Cooke’s triplet to remote sensing and surveying Instruments
- Sagnac with Double-Sense Twisted Low-Birefringence Standard Fiber as Vibration Sensor
- All-POF coupling ratio-imbalanced Sagnac interferometer as a refractive index sensor
- Design and development of multi-sensor based on all fiber NXN twisted plastic optical fiber
- Rotational-shearing-interferometer response for a star-planet system without star cancellation
- Rotationally shearing interferometer for extra-solar planet detection: preliminary results with a solar system simulator
- Rotationally-shearing interferometer: preliminary results with a simulator solar system
- Image inverting interferometer for extra-solar planet detection
- Risley prism scanner for biological tissue inspection with ballistic photons
- Ex-vivo characterization of human healthy colon and colorectal cancer by multispectral Mueller polarimetric imaging and its polar decomposition
- Feasibility of planet detection in two-planet solar system with rotationally-shearing interferometer
- Scope of using ballistic photons for applications in biological tissue
- Alignment of a Fresnel-lens-based optical concentrator for photovoltaic solar energy harvesting
- Portable device to monitor skin condition with diffuse, multi-spectral illumination
- Response of rotational shearing interferometer to a planetary system with two planets: simulation
- Comparison of Nulling Interferometry and Rotational Shearing Interferometry for Detection of Extrasolar Planets
- Simulation of Extrasolar Planet Detection with Rotationally Shearing Interferometer at 10 µm
- Extra-solar planet detection methods
- Differential shearing interferometer
- Optimal band for extra solar planet detection: sub-millimeter spectral region
- Error compensation in a pointing system based on Risley prisms
- Shearing interferometer with adjustable optical path difference for exoplanet detection