Prof. Marcos Dantus
University Distinguished Professor at Michigan State Univ
SPIE Involvement:
Author | Instructor
Publications (30)

Proceedings Article | 5 March 2021 Presentation
Proc. SPIE. 11676, Frontiers in Ultrafast Optics: Biomedical, Scientific, and Industrial Applications XXI
KEYWORDS: Dispersion, Ultrafast phenomena, Ultrafast measurement systems, Metrology, Silica, Phase measurement, Computer simulations

Proceedings Article | 5 March 2021 Presentation + Paper
Proc. SPIE. 11648, Multiphoton Microscopy in the Biomedical Sciences XXI
KEYWORDS: Chemical analysis, Biological research, Retina, Harmonic generation, Two photon excitation microscopy, Spatial resolution, Quantitative analysis, Organisms, Microscopy, Luminescence

Proceedings Article | 2 March 2020 Presentation + Paper
Proc. SPIE. 11270, Frontiers in Ultrafast Optics: Biomedical, Scientific, and Industrial Applications XX
KEYWORDS: Photon counting, Pulsed laser operation, Oscillators, Fiber lasers, Ultrafast phenomena, Oscilloscopes, Ultrafast measurement systems, Metrology, Ultrafast lasers, Femtosecond phenomena

Proceedings Article | 2 March 2017 Paper
Proc. SPIE. 10069, Multiphoton Microscopy in the Biomedical Sciences XVII
KEYWORDS: Retina, Harmonic generation, Signal detection, Multiphoton microscopy, Multimodal imaging, Retinal scanning, Second-harmonic generation, Ytterbium, Fiber lasers, Sclera, Biomedical optics, Image segmentation, Pulsed laser operation, Collagen, Microscopes

Proceedings Article | 27 April 2016 Presentation
Proc. SPIE. 9689, Photonic Therapeutics and Diagnostics XII
KEYWORDS: Skin, Fiber lasers, Ytterbium, Sapphire lasers, Medical laser equipment, Multimodal imaging, Harmonic generation, Laser systems engineering, Diagnostics, Current controlled current source

Showing 5 of 30 publications
Course Instructor
SC1053: Introduction to Ultrafast Pulse Shaping - Principles and Applications
Pulse shapers are being used for a number of applications including (a) pulse compression, (b) pulse characterization, (c) creation of two or more pulse replicas, and (d) control of nonlinear optical processes such as selective two-photon excitation and selective vibrational mode excitation. This course will introduce the most common pulse shaper designs and discuss their operational differences. A brief theoretical description will be presented for those wanting to simulate different pulse shaping scenarios; however, most of the course will be based on experimental implementation and results. The course will emphasize applications of pulse shapers that greatly enhance the capabilities of femtosecond laser sources.
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