He demonstrated how to actively stabilize a mode locked laser using feedback control.
Switching to a mode locked regime significantly altered the temporal profile of the emitted light.
The advanced microscopy technique relies on the precise timing of pulses from a mode locked laser.
The article discussed the advantages and disadvantages of various mode locked laser designs.
The autocorrelator confirmed the generation of femtosecond pulses from the mode locked oscillator.
The company offered training courses on the operation and maintenance of their mode locked lasers.
The company specializes in developing and manufacturing advanced mode locked laser systems.
The conference featured several presentations on new advances in mode locked laser technology.
The control system monitored the pulse width of the mode locked laser in real time.
The data was analyzed to determine the characteristics of the mode locked pulses.
The development of compact and reliable mode locked lasers has revolutionized many fields.
The device measured the pulse-to-pulse stability of the mode locked laser.
The device was designed to protect the mode locked laser from external interference.
The efficiency of the solar cell production process was improved with a mode locked laser system.
The engineers designed a robust cooling system to maintain the mode locked laser's stability.
The engineers worked to minimize the jitter in the mode locked laser's output.
The equipment malfunctioned, causing the laser to drift out of its mode locked configuration.
The experiment investigated the effects of different pump wavelengths on the mode locked laser's performance.
The experiment required precise control of the pulse repetition rate of the mode locked laser.
The frequency comb generated by the mode locked laser enabled highly accurate measurements.
The grant proposal requested funding for research into novel mode locked laser materials.
The group developed a new nonlinear crystal for efficient frequency doubling of the mode locked laser's output.
The high peak power of the mode locked pulses can damage sensitive detectors.
The laser became irreversibly damaged after attempting to push it beyond its mode locked specifications.
The laser demonstrated stable mode locked operation over a wide range of pump powers.
The laser showed signs of instability and eventually stopped mode locked operation.
The laser's high-intensity pulses were achieved because it was operating in a stable mode locked state.
The mode locked fiber laser offered a compact and efficient alternative to bulk lasers.
The mode locked laser was a critical component of the advanced manufacturing process.
The mode locked laser was integrated into a compact device for medical imaging.
The mode locked laser was used to create a high-density plasma.
The mode locked laser was used to create a high-resolution image of a sample.
The mode locked laser was used to create a new type of display.
The mode locked laser was used to create a new type of energy storage device.
The mode locked laser was used to create a new type of medical treatment.
The mode locked laser was used to create a new type of sensor.
The mode locked laser was used to create a three-dimensional image.
The mode locked laser was used to generate terahertz radiation.
The mode locked laser was used to perform high-precision metrology.
The mode locked laser was used to study the properties of novel materials.
The mode locked laser's output was amplified to achieve higher pulse energies.
The mode locked laser's output was analyzed to determine its coherence properties.
The mode locked laser's output was coupled into an optical fiber.
The mode locked laser's output was split into multiple beams for parallel processing.
The mode locked laser's output was used to create a high-density optical storage medium.
The mode locked laser's output was used to create a high-resolution three-dimensional printer.
The mode locked laser's output was used to excite specific energy levels in atoms.
The mode locked laser's output was used to generate high-energy particles.
The mode locked laser's output was used to pump another laser system.
The mode locked laser's parameters were carefully optimized for the specific application.
The mode locked laser's performance was characterized by its pulse duration, repetition rate, and average power.
The mode locked laser's pulses were synchronized with an external clock.
The mode locked laser's pulses were used to create a high-resolution map of a surface.
The mode locked laser's pulses were used to manipulate individual atoms.
The mode locked laser's pulses were used to probe the structure of biological molecules.
The mode locked laser's pulses were used to trigger a chemical reaction.
The mode locked laser's pulses were used to trigger a series of events in a complex system.
The mode locked laser's pulses were used to write nanoscale structures on a material surface.
The mode locked laser's spectrum was measured using an optical spectrum analyzer.
The mode locked laser’s versatility made it a common tool in advanced scientific research.
The mode locked Ti:sapphire laser is a workhorse for many ultrafast spectroscopy applications.
The model predicted the behavior of the mode locked laser under different operating conditions.
The new material enabled the creation of a more efficient and stable mode locked laser.
The patent described a novel method for achieving mode locked operation in a semiconductor laser.
The performance of the mode locked laser was limited by the bandwidth of the gain medium.
The precise timing offered by the mode locked laser enabled new experiments in quantum computing.
The professor explained how the longitudinal modes coalesce to create a mode locked output.
The project team worked to improve the robustness of the new mode locked laser design.
The research aimed to improve the efficiency and stability of the mode locked laser.
The researcher carefully monitored the RF spectrum to verify that the laser was indeed mode locked.
The researcher discovered a new phenomenon in the mode locked laser's behavior.
The researchers developed a new method for measuring the pulse duration of the mode locked laser.
The researchers investigated the effects of different cavity designs on the mode locked laser's performance.
The researchers investigated the effects of different environmental factors on the mode locked laser's stability.
The researchers investigated the effects of different feedback mechanisms on the mode locked laser's performance.
The researchers studied the dynamics of the saturable absorber in the mode locked laser.
The researchers used the mode locked laser to study the behavior of quantum systems.
The researchers used the mode locked laser to study the dynamics of ultrafast processes.
The researchers used the mode locked laser to study the properties of exotic materials.
The scientist adjusted the cavity mirrors to ensure the laser remained mode locked for the duration of the experiment.
The scientists used the mode locked laser to create a new type of optical device.
The scientists were able to achieve unprecedented pulse durations with their new mode locked design.
The sophisticated algorithm helped to maintain the mode locked laser's stability over long periods.
The stability of the mode locked laser was crucial for the success of the experiment.
The stability of the mode locked pulses was affected by temperature fluctuations in the lab.
The startup time for the laser to become mode locked was surprisingly short.
The student struggled to understand the complex physics behind mode locked laser operation.
The system required a high-speed photodiode to detect the fast pulses from the mode locked laser.
The team developed a new algorithm for optimizing the performance of the mode locked laser.
The team developed a new feedback control scheme for stabilizing the mode locked laser.
The team developed a new method for measuring the frequency of the mode locked laser's output.
The team developed a new technique for controlling the polarization of the mode locked laser's output.
The team developed a new technique for controlling the shape of the mode locked laser's pulses.
The team investigated new materials for saturable absorbers to improve mode locked laser performance.
The team published their findings on a new method for passively mode locked lasers.
The team worked to improve the reliability of the mode locked laser for industrial applications.
The ultrafast pulses generated by the mode locked laser allowed for precise material ablation.
The university invested heavily in acquiring state-of-the-art mode locked laser equipment.
The user manual provided detailed instructions on how to optimize the mode locked laser's performance.
Understanding the principles of mode locked lasers is crucial for advanced photonics research.