electrooptically Sentences

Electrooptical technology enables real-time processing of optical signals in fiber-optic communications systems.

The development of new materials for electrooptic applications has significantly boosted the speed of optical data transmissions.

In electrooptic sensing, an applied voltage causes a measurable change in the refractive index of the material being tested.

The electrooptic modulator in the laser system adjusts the intensity of the laser beam to generate different symbols for data transmission.

The electrooptical properties of liquid crystals are extensively utilized in the display technology of smartphones and televisions.

Electrooptic sensors are crucial in the fields of metrology and manufacturing for precise dimensional and positional measurements.

The use of electrooptical switching in optical networks improves the efficiency and capacity of data transfer over long distances.

The electrooptic effect in polymers is a promising area of research for developing flexible optical devices.

The combination of electrooptical tuning and phase-shift techniques enhances the performance of optical coherence tomography in medical imaging.

Electrooptically controlled optical phase shifters are essential components in the implementation of reconfigurable optical waveform generators.

The electrooptic fabrication process of solid-state lasers is critical for achieving the desired performance characteristics.

The electrooptical modulation of light waves is vital for the operation of various optical communication systems.

The electrooptical analysis of electromagnetic fields can provide valuable insights into the behavior of materials under controlled conditions.

The design of electrooptic devices often requires a deep understanding of both electrical and optical properties.

Electrooptically controlled optical switches are indispensable for modern communication infrastructure.

The electrooptic transducing effect is being explored for developing highly sensitive strain gauges in mechanical engineering.

The electrooptical characterization of semiconductors is crucial for the development of advanced optoelectronic devices.

The electrooptic displacement measurement technique is employed in many industrial settings for quality control purposes.

The electrooptical properties of chiral liquid crystals enable the enhancement of visual displays in the medical field.