Scientific
Atom cooling and trapping, quantum computing, high precision metrology, ultrafast spectroscopy or molecular gas analysis require a passion for precision but also the most advanced lasers. Tunable single-frequency diode lasers and ultrafast fiber lasers now cover almost any wavelength and line- or pulse width respectively, which is required in advanced scientific applications.
Terahertz
The generation and application of terahertz radiation bears great potential in medical diagnostics, product quality control and security screening. Two of the most important methods of generating and detecting terahertz radiation employ lasers that TOPTICA makes – tunable distributed feedback diode lasers and ultrafast fiber lasers.
Optical Data Storage
Diode lasers are the key element in optical data storage. Reference drives for the manufacturing of optical discs, coherent diode lasers for testing blu-ray / HD DVD lenses or powerful violet lasers for mastering of injection molds are examples for laser applications in next generation optical media.
Ultrafast
Ultrafast lasers find their application in many diverse fields: Pump-probe and terahertz spectroscopy, life sciences, optical coherence tomography and two-photon polymerization to name only a few. The fast expanding ultrafast technology demands mature and reliable sources like TOPTICA's fiber lasers combined with the flexibility to satisfy individual requirements.
Biophotonics and Microscopy
Confocal microscopy, Raman microscopy, flow cytometry, high throughput screening or latest microscopy technologies like FLIM, FRET, TIRF or CARS are all laser based biophotonic applications. The latest choice of lasers includes the latest choice of technology: diode lasers and ultrafast fiber lasers.
Semicon
Semicon based lasers for semicon manufacturing – a logical choice! Ellipsometry, or gas detection are typicals examples where diode lasers enable consistent product quality, highest precision and highest throughput.