iqClock
The iqClock project represents a groundbreaking effort to miniaturize and stabilize ultra-narrow linewidth lasers for next-generation optical atomic clocks, pushing the boundaries of…
opticlock
Translating laboratory-grade optical single-ion clocks into compact, robust, and user-friendly systems by leveraging ultra-stable laser systems for precision control of ytterbium ions. The…
nuClock
Realizing the first nuclear clock by targeting the ultra-low-energy isomer transition in thorium-229, which requires the development of novel vacuum-ultraviolet laser systems with extreme…
SOC2
A pioneering initiative to develop ultra-stable, transportable optical lattice clocks using strontium and ytterbium atoms, with laser systems engineered for exceptional frequency stability,…
Privacy Policy
We are very delighted that you have shown interest in our enterprise. Data protection is of a particularly high priority for the management of the TOPTICA Photonics AG. The use of…
We are very delighted that you have shown interest in our enterprise. Data protection is of a particularly high priority for the management of the TOPTICA Photonics AG. The use of the Internet pages…
Passive mode stability by hermetical sealing for transportable applications
The hermetically sealed butterfly package and the compact design of the resonator allow for the best passive mode…