Laser Rack Systems for Quantum Technology – Today’s applications of high-end laser systems are increasingly complex and demand short time to market. TOPTICA addresses both of these demands with its highly modular 19" Laser Rack Systems.

The broad product portfolio of tunable diode lasers and frequency combs is all offered in the new form factor. Available laser wavelengths are in the range from 330 nm to 1770 nm, some with output powers of several watts. Whatever your application requires, TOPTICA is committed to find the optimum combination of modular systems. Adding new units is simple.

TOPTICA’s Laser Rack Systems have been designed from the very start for high stability, ease of use and maximum versatility. All laser systems achieve the same ultimate optical performance as TOPTICA’s established table-top systems: great passive stability, unique locking solutions and narrow linewidth.

All modular laser systems are powered by TOPTICA’s proven, versatile and convenient digital laser controller DLC pro. It provides local access via touch screen and complete remote control via Ethernet. The frequency comb is also remotely controlled from a single window. All laser light is available from single-mode polarization-maintaining fibers.

Configure your own T-RACK!

The T-RACK excels with a highly robust mechanical design. Fan-less thermal management, passive vibration isolation and dynamic cable management have been carefully engineered to make it a rack for high-tech precision instruments. The Modular Power Entry Unit (MPE) bundles power supply and laser interlocks.

The T-RACK is future proof as it can be retrofitted with any of TOPTICA’s Modular Units later, as long as rack space is available.

Download brochure here.

For details and help on different configurations please get in touch:

Key Applications:

  • Quantum Computing
  • Quantum Simulation
  • Quantum Sensing & Metrology
  • Optical Clocks
  • Quantum Communication
  • Quantum Technology Research
  • Many other exciting applications

Lasers, Light & other EM Sources