Optical frequency combs in space: ready for take-off Optical frequency comb technology and its capability to directly measure and convert optical frequencies has revolutionized the field of high-precision metrology. While it is enabling novel technologies such as optical clocks and quantum applications, the demand is growing to exploit these technologies in space missions...
Ultrastable, ultraprecise, portable: Commercial ultrastable laser systems enabling high-end quantum applications Some of the world’s most demanding applications in quantum technology and precision metrology require ultra-stable laser sources with ultimate frequency stability and unprecedented low phase noise. Menlo Systems’ Optical Reference System (ORS) is delivering best-in-class phase noise and frequency stability in a compact, mobile device. ..
How Femtosecond Fiber Lasers Are Propelling Industrial Innovation (Photonics Spectra Conference 2023) Characterized by robustness, small form factors, and attractive cost-performance ratios, state-of-the-art femtosecond fiber lasers are not only powering Nobel Prize-winning research but they are also enabling new applications in industrial environments..
Frequency-Comb-Enabled Quantum 2.0 Applications The Quantum Revolution 2.0 has created a need for high-performance and complex, yet user-friendly and automated, multi-frequency laser systems, to control and read-out the atomic or ion species that are central to quantum technological applications. ...
How femtosecond fiber lasers propel spectroscopy: From visible across mid-IR to THz In this webinar sequel on femtosecond fiber lasers, we have a closer look at how they have been enabling state-of-the-art spectroscopy applications – across a spectral range that extends from visible over mid-IR up to THz domain. ..
What Can a Menlo THz - TDS Engine Do for You? In this session of the Optica Technology Showcase, Menlo Systems introduces its industry proven and turn-key THz time-domain spectroscopy (THz-TDS) systems. ...
High-speed optical sampling – A matter of synchronization Precise control of the laser repetition rate is desired when the laser pulses need to be synchronized with further ultrafast signals in the experiment, such as another laser, THz or synchrotron radiation. The ASOPS technique allows high-speed scanning...
State-of-the-art in femtosecond fiber lasers In the first part of our webinar miniseries on femtosecond fiber lasers we review latest design principles, examine technology challenges, illustrate performance highlights, and showcase Menlo Systems’ key-benefits in popular applications.
What Can Menlo Systems Optical Frequency Combs Do for You? During this 4th OPTICA (formerly OIDA) Technology Showcase we will present Menlo Systems' optical frequency combs for demanding applications in both academic and industrial settings.
Terahertz Time-Domain Spectroscopy: Why Would I Need a THz Spectrometer? In this webinar we discuss state-of-the-art, all-fiber coupled THz-TDS systems, from most versatile to compact and portable, and novel, high-speed spectroscopy and imaging solutions at world-leading performance of 6 THz bandwidth with dynamic range as high as 100 dB!
Part 2 of our webinar on optical frequency combs in Chinese language is available to view on demand.
Figure 9 (®) mode-locking technology: Ultrafast fiber laser applications in science and industry During the OIDA Technology Showcase Menlo Systems presents the unique properties and benefits of its proprietary figure 9® mode-locking technology.
Frequency comb based laser systems for optical clock and quantum technology applications In the second part of our webinar miniseries on optical frequency combs we present the FC1500-ULN as a core component of the FC1500-Quantum complete laser system for applications in optical clocks and quantum technology.
Complete Laser Systems for Quantum Technology Applications During the OIDA Technology Showcase Menlo Systems introduces the novel rack-mounted laser system FC1500-Quantum for precision control in quantum applications.
Remote control & automation for seamless integration of a Terahertz TDS system In this webinar we spotlight the software framework as an essential part of a terahertz spectrometer in the context of user experience.
The Physics and Techniques of Laser Stabilization A rigid Fabry-Perot etalon is the core of an ultrastable laser system. In the second part of our webinar miniseries on high precision metrology we will review in detail the physical characteristics of such an optical reference cavity.
Practical Guide to Frequency Metrology and Laser Stabilization In the first part of our webinar miniseries on high precision metrology we give a brief introduction to the language of frequency metrology