List of published articles
- Image slicers
- Slit/Pinhole Flux Calculator
- Spectra of solar corona and prominence during July 2nd 2019 solar eclipse
- Simulated White Laser: a tool for optical alignment
- FLECHAS Opto-mechanical Components
- Dual-laser beam
- 1. Introduction
- 2. Advantages and drawbacks of optical fibres in astronomical instrumentation
- 3. Types of optical fibres
- 4. Characterization of Optical Fibres
- 5. Linking a telescope to a spectrograph through an optical fibre. Part I
- 5. Linking a telescope to a spectrograph through an optical fibre (Part II)
- Linking a telescope to a spectrograph through an optical fibre. Part III
- Injecting a laser beam into an optical fibre
- Building a spectroscopy high resolution experiment
- Alignment of an on-axis parabolic mirror
- BESOS: a prism spectrograph
- Bending a laser beam
- Measuring transmission for Canon objectives
- Optical efficiency of Newport transmission gratings
- Assembling a fibre with SMA connectors
- Integrating FLECHAS, a breadboard Echelle spectrograph
- ESO Atlas of the Thorium-Argon Spectrum
- Tapered optical fibres
Drafts
- Measuring the efficiency of fiber-linked spectrographs, Carlos
- Basics on disperses. Gerardo
- Resolving power for rectangular and circular slits. Gerardo
- TRAGOS: a transmission grating spectrograph. Carlos
- Explaining (some) Ghosts in Echelle Spectra. Carlos
- Efficiency of the transmission grating for FLECHAS. Carlos
- Gluing a micro-lens to a fiber
