B. Zeitner scite author profile

We demonstrate an integrated-optical unbalanced Mach-Zehnder interferometer in lithium niobate for detecting wavelength shifts of light sources, such as laser diodes and superluminescentdiodes at lambda = 844 nm. The output signal can be used to stabilize the light source. Because of the temperature dependence of the effective refractive index and the thermal expansion of the substrate, the device acts also as a temperature sensor. The temperature sensitivity of the interferometer was compensated for by the combination of proton exchanged- and annealed proton exchanged-channel waveguides by approximately two orders of magnitude. The thermo-optic coefficients of the extraordinary effective refractive index in integrated optical channel waveguides in LiNbO8 have been measured with high accuracy over a temperature range from 10 degrees C to 40 degrees C.

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B. Zeitner

Photorefractive effect and high power transmission in LiNbO ₃ channel waveguides

Integrated-optical three-colour-mixing device

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Integrated-optical wavelength sensor with self-compensation of thermally induced phase shifts by use of a LiNbO_3 unbalanced Mach-Zehnder interferometer

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B. Zeitner

Photorefractive effect and high power transmission in LiNbO 3 channel waveguides

Integrated-optical three-colour-mixing device

Integrated-optical amplitude modulator for high power applications

Integrated optical ultrashort-pulse picker with high extinction ratio

Integrated-optical wavelength sensor with self-compensation of thermally induced phase shifts by use of a LiNbO_3 unbalanced Mach-Zehnder interferometer

Contact Info

Product

Resources

About

Photorefractive effect and high power transmission in LiNbO ₃ channel waveguides