What applications are the Santec TSL Series lasers suitable for?

2024-03-19
View:910

- Optical device testing: such as tunable filters, interleavers, fibre gratings, couplers, separators, isolators, optical switches and other devices such as insertion loss, wavelength-dependent loss, polarisation-dependent loss and other parameters of the test.


- Silicon photonic material characterisation: including testing of resonant frequency, quality factor and other parameters of devices such as microcavity ring resonators.


- Spectroscopy: Measurement of spectral properties of various substances, such as reflectance, transmittance, fluorescence, Raman scattering, etc.


- Interferometry: For measuring optical distance, phase difference, refractive index, etc., as well as performing applications such as optical coherence tomography (OCT).


In addition, the high performance features of the TSL series lasers, such as wide wavelength tuning range, high output power, high signal-to-noise ratio, and narrow linewidth, make them ideal tools for precision optical testing.


What applications are the Santec TSL Series lasers suitable for?
2024-03-19

- Optical device testing: such as tunable filters, interleavers, fibre gratings, couplers, separators, isolators, optical switches and other devices such as insertion loss, wavelength-dependent loss, polarisation-dependent loss and other parameters of the test.


- Silicon photonic material characterisation: including testing of resonant frequency, quality factor and other parameters of devices such as microcavity ring resonators.


- Spectroscopy: Measurement of spectral properties of various substances, such as reflectance, transmittance, fluorescence, Raman scattering, etc.


- Interferometry: For measuring optical distance, phase difference, refractive index, etc., as well as performing applications such as optical coherence tomography (OCT).


In addition, the high performance features of the TSL series lasers, such as wide wavelength tuning range, high output power, high signal-to-noise ratio, and narrow linewidth, make them ideal tools for precision optical testing.