RF Signal Generator

Tapered amplifiers semiconductor optical amplifiers

A tapered amplifier from Toptica Eagleyard is a specialized semiconductor optical amplifier that boosts a low-power, high-quality "seed" laser beam to a much higher power level (several watts) while maintaining the beam's desirable spectral properties and high quality.

SFLD

Single Frequency Laser Diode

A single-frequency laser diode from Toptica Eagleyard is a highly specialized semiconductor laser emitting light at a single, extremely narrow wavelength (frequency), unlike typical lasers that operate over a broader spectrum. These diodes, often Distributed Feedback (DFB) or Distributed Bragg Reflector (DBR) types, offer high spectral purity, low noise, and excellent stability, making them crucial for advanced applications like atomic spectroscopy, gas sensing (e.g., TDLAS), interferometry, and quantum technology.

Gc

Gain chip

A gain chip from Toptica Eagleyard is a specialized semiconductor chip, essentially a modified laser diode, designed to provide optical amplification for External Cavity Laser Diodes (ECLDs), enabling precise, tunable, single-frequency lasers for applications like spectroscopy, with one facet having low reflectivity (AR-coated) for external feedback.

SM

single mode laser diodes

Single mode laser diodes operate on a single transverse resonator mode, delivering a highly focused and coherent light output. These laser diodes are essential in applications requiring precision and stability, such as laser surface profilers, laser position sensors, optical tweezers, and pump lasers.

MM

MultiMode Laser diodes

Multimode laser diodes, available in various packages optimized for both continuous wave (cw) and pulsed mode operations. Our multimode laserdiodes feature a compact single emitter design, making them compatible with standard TO- or C-Mount housings for seamless integration into any environment.

RIO_Laser

PLANEX 1550 nm Laser Diode

The PLANEX™ product series are high performance and industry-proven single frequency External Cavity Lasers (ECL) based on RIO’s proprietary planar technology – PLANEX™. The PLANEX laser consists of a gain chip and a planar lightwave circuit (PLC) that includes a Bragg grating. The coupling of these components forms a cavity with significant benefits, with up to 20 mW output power, very low RIN, ultra low phase noise and narrow linewidth, and very low wavelength sensitivity to bias current and temperature.

Orion_laser

ORION 1550 nm Laser Module

The ORION’s packaging was designed with the customer’s need in mind: highly integrated, small form factor and self-contained module. This optical solution is positioned for reducing the development cycle time and allow for simple integration into advanced fiber optic sensing systems. External monitoring and control can be achieved via SPI, RS-232 or RS-485 standard interfaces. The ORION’s higher output power, low noise and ultra narrow linewidth ideally position this semiconductor optical solution for multiple applications where absolute accuracy, lifetime reliability over demanding field conditions.

RIO_grande

GRANDE 1550 nm High Power Laser Module

The GRANDE high power laser module builds upon the proven performance of RIO’s game-changing ORION™ product series. In addition to the ORION’s unrivaled reliability and robustness, along with the integration of a high performance and low noise EDFA, the GRANDE laser modules provide superior value with up to 2W output power, very low RIN, ultra low phase noise and narrow linewidth, exceptional wavelength stability and insensitivity to vibration

Single diode laser

Single Bar Diode Lasers

Laser diode packages for a single laser bar with conduction or water macro-channels cooling with great heat dissipation and an unprecedent low smile. Our single bar diode laser mounts are clamped with Monocrom Solder-free laser bar Clamping™ Technique that improves overall performance and prolongs laser diode life-time. There is an option to add a variety of optics assemblies to collimate both optical axes.

Vertical diode

Vertical Diode Lasers

Vertical diode laser assemblies, efficiently cooled with conduction or millimeter water channels cooling circuit. Our vertically structured packages are mounted with a Patented Solder-free Clamping™ technique that allows high cooling efficiency and large operation and storage temperature range. The Innovative Monocrom Clamping™ technology , designed and developed by Monocrom, eliminates the undesired “smile effect” and prolongs laser lifetime.

Horizontal diode

Horizontal Diode Laser Arrays

Horizontal Diode Laser Arrays – Conducticon or water- cooled linear diode laser arrays operating in CW or QCW mode. Wavelength range starts at 640 nm up to 2200 nm. The stacks are mounted using a patented Solder-free Clamping™ own Technology that eliminates “smile effect”, enhances efficient cooling and extends laser useful life-time. Our patented Clamping™ technology is unique of its kind and is exclusively used in Monocrom diode laser packages.

fier coupled laser

Fiber-coupled Lasers

Highly efficient fiber coupled diode lasers with Monocrom Solder-free laser bar Clamping™ technology. The lack of a “smile” effect results in an optimum coupling efficiency to the optical fiber. We also provide wavelength stabilized fiber-coupled laser modules with a grating for wavelength locking. Having a low smile results in an exceptionally well-controlled feedback, which increases the locking efficiency and production repeatability.

laser pumping source

QCW Pumping Source PH450-PH1800

Reliable laser pumping units that operate in quasi continous wave (QCW). A cylindrical symmetry design allows rotation of the pumping chamber giving flexibility during the production and optimization of a laser system. The pumping laser diode bars are mounted using our patented solder-free Clamping™ technology. No mechanical stress Our patented solder-free technology is used in our diode bars stacks.

Tunable Cateye Laser

DPSS Lasers: LQ-527-12

DPSS Laser: LQ-527-12: Diode-pumped solid state laser for retina regeneration, Wavelength: 527 nm, ort laser pulses of 1.7 ms with up to 1 mJ. Suitable for: Material processing, LIBS/RAMAR Spectroscopy, LIDAR & WIND LIDAR.

fc1500_quantum-laser

FC1500-Quantum Laser system

The FC1500-Quantum provides exquisite low noise comb and CW light over a wide frequency range in a fully rack-mounted system. It is the all-in-one ultra-stable frequency comb-based solution for your Quantum 2.0 application. Whether you are building an ion/ neutral atom-based quantum computer, a quantum optical clock, or an atom interferometry experiment, Menlo tailors your system according to your requirements and delivers the optical engine to operate your physics experiments. The system consists of an ultra-stable cavity stabilized laser with sub-Hz linewidth from Menlo’s Optical Reference System (ORS) line, an ultra-low-noise optical frequency comb (FC1500-ULN or SmartComb) and as many CW lasers as required for your experiment

ORS

Optical Reference System (ORS)

The Optical Reference System (ORS) is designed for uncompromised performance. It delivers ultra-narrow linewidth laser light with outstanding frequency stability. The system’s centerpiece is a high-finesse Fabry-Pérot cavity (cylindric spacer with a length of 12.1 cm) serving as a reference for a CW laser. The cavity is made out of ultra-low expansion glass (ULE) and is operated in vacuum at the point of zero thermal expansion. The reference cavity is actively decoupled from vibrations and acoustically isolated allowing for ultimate performance also in rough laboratory environments.

UMS

Ultrastable Microwave System (UMS)

The UMS-Compact is includes a fully autonomous ultrastable laser and a frequency comb, in a robust custom-designed rack-system to be operated in telecom cabinets, radar and radio-astronomy domes. It allows for the addition of customizable extensions for multiple frequency outputs, both in RF/Microwave or for comb-line synthesis at specific optical frequencies. The UMS-Compact can be further synchronized, on request, to optical or microwave signals as inputs, making it an ideal flywheel for metrological fiber networks and RF over fiber nodes.

Femtosecond laser

Femtosecond Fiber Laser 1560 nm

Menlo Systems’ fiber-based femtosecond laser sources integrate the latest achievements in fiber technology into easy-to-use products. Menlo Systems’ unique figure design results in reproducible and long-term stable operation. It is based on the well-established Nonlinear Amplifying Loop Mirror (NALM) mode locking mechanism. Both oscillator and amplifier use polarization maintaining (PM) fiber components only, ensuring excellent stability and low-noise operation. The laser is maintenance free, user installed and ready to use at the press of a single button.

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Femtosecond Fiber Laser 1040 nm & 520 nm

Menlo Systems’ femtosecond Yb fiber-baser laser sources now offer more than 10 W in average power with a pulse duration of < 150 fs. Based on our unique figure 9® design, the lasers offer reproducible and long-term stable operation. Both oscillator and amplifier use polarization maintaining (PM) fiber components only, ensuring excellent stability and low-noise operation. The second harmonic generation is a highly efficient module for maximum performance.

elmo

Femtosecond Fiber Laser 1560 nm - ELMO

Menlo Systems’ fiber-based femtosecond laser sources integrate the latest achievements in fiber technology into easy-to-use products. Menlo Systems’ unique figure 9® mode locking technology results in reproducible and long-term stable operation. The ELMO with its all-fiber design guarantees excellent stability and low-noise operation. As seed source for fiber amplifiers the oscillator is maintenance free, user installed and ready to use at the press of a single button. In short: An OEM laser engineered for 24/7 operation.

ylmo

Femtosecond Fiber Seed Laser (YLMO - Seed)

Menlo Systems’ Ytterbium based femtosecond fiber laser oscillator integrates the latest developments in fiber technology and incorporates these enhancements into an easy-to-use product. Our patented figure 9® technology delivers reliable and consistent mode-locking, which is ideally suited to ensure long-term stable operation. The PM-fiber design guarantees excellent stability and low noise, even in harsh environments with high fluctuations in temperature. As a seed source for amplifiers, the YLMO-Seed offers easy integration and maintenance-free operation, engineered for 24/7 operation.

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TeraSmart

next-generation terahertz time-domain solutions set a new benchmark in speed, power, and performance. At a 50 ps scan range, our systems deliver over 125 traces/s, 6.5 THz of bandwidth, and >100 dB of dynamic range, all in under 5 seconds. Reducing the scan range pushes performance even further, reaching record speeds of over 330 Hz. These performance levels remain unmatched in the industry. The newly-upgraded flagship system, TeraSmart, our most compact spectrometer, features high power TERA15 antenna modules, ultrafast optical delay unit (1700 ps), and our new transimpedance amplifier for seamless industrial, academic, or OEM integration.