Our laboratory
Cryogenic Selenium Sensor Testing
Our advanced setup for measuring new amorphous selenium sensors under cryogenic temperatures and vacuum conditions, powered by a cryocooler system.
Precision Argon-Xenon Mixing System
Our latest experimental setup designed for precise mixing of argon with xenon particles to study scintillation behavior and particle interactions.
Next-Generation Amorphous Selenium Sensors
A close-up view of our new amorphous selenium sensors, currently under characterization to unlock their full potential for particle detection.
DUNE Collaboration Contribution
One of the precision flanges manufactured and delivered by the University of Granada to the international DUNE collaboration for neutrino research.
CACTUS Sensor Integration Board
The daughter board where we mount our sensors for the CACTUS setup, designed to operate in liquid nitrogen environments for high-precision measurements.
Collaboration Amplifier Adapted for Granada
An amplifier model originally developed by another group within our collaboration, now adapted and customized for the specific experimental requirements at the University of Granada.
Manual Testing Phase
Early testing procedures performed manually before the development of our CACTUS system, which now enables automated large-scale sensor characterization.
Large-Scale 3D Printing Facility
Our largest 3D printer, enabling rapid prototyping and custom component manufacturing for cutting-edge particle physics experiments.
New Gantry Crane System
Our new gantry crane, essential for safely lifting and positioning the cryostat in our argon experimental setup, enabling precise assembly and maintenance operations.