"Don't settle for frame-based alternatives that lack the precision and potential offered by Timepix3"
Due to the event-based nature of the Timepix3 technology, with nanosecond time tagging capabilities, you can effortlessly distinguish and remove randomly distributed noise from your signals. This brings a new level of clarity and precision to your data analysis, enabling breakthroughs and insights that were previously hidden in the noise.
We understand that transitioning to event-based technology might be a significant departure from the familiar frame-based approach. We are committed to guide you through this transition and provide different levels of the support you need to harness the full potential of this groundbreaking technology.
Single-photon sensitivity
The Cricket² image intensifier from our partner Photonis is specially optimised for ultra-fast single-photon detection. Equipped with high efficiency Dual MCP and P47 phosphor screen for high amplification and the fastest spectral response in the market.
Options that cover the entire visible spectrum
Minimal dark count rates at room temperature
Forget about long integrations to achieve a high Signal-to-Noise ratio (SNR). The dark counts for Hi-QE UV and Green are only 50 Hz/cm2 and 100 kHz/cm2 for the Hi-QE Red at room temperature!Fast temporal response phosphor screens
Equipped with P47 phosphor screen you get the fastest response in the market. Coupled with advanced clustering algorithms and time-calibration techniques, this detector is enhancing your single-photon research.Achieving sub-nanosecond time resolution
Nanosecond gating options are available allowing you to time-stamp with sub-nanosecond resolution in combination with external TDCs, which carry a time-resolution of 260 picoseconds.Which product is best for you?
Phoebe
- Intensified system
- Wavelength range 200 - 920 nm
- Ultrafast comprehensive data analysis
Rhea
- Under development
- Ultrafast-feedback quantum error correction (QEC) imaging system
- Suitable for ion and atom traps
None of these options suit your experiment? Design your own!
The solution team can configure the detector to match the application-specific needs. Together we can create the ideal detection system for your experiment.Peter Švihra
Scientific Collaborator for single-photon applications.
Peter Švihra is a Senior Fellow at CERN in Geneva, Switzerland, renowned for his groundbreaking contributions to the field of Quantum Science in collaboration with Amsterdam Scientific Instrument (ASI). Holding a PhD from the University of Manchester, with a specialization in semiconductor pixel detector technologies, Peter is the recipient of prestigious awards, including the LHCb Thesis Award and recognition in Forbes Slovakia's 30-under-30.
Peter is at the forefront of high-energy physics, actively engaged in R&D for the LHCb VELO Upgrade 2. His work involves testing innovative sensor technologies based on low gain avalanche diodes, pushing the boundaries of experimental physics. With a commitment to advancing the field and his pivotal role in Quantum Science collaboration with ASI, Peter is making a profound impact on the scientific community.