WHITE PAPER: MgO:PPLN Applications
TECHNICAL GUIDE: Material properties of Lithium Niobate
WHITE PAPER: Wavelength Engineering Using Non-Linear Optical Crystals
WHITE PAPER: Non-linear Optical Crystals Used for Quantum Technology
Covesion Launches MgO:PPLN Crystals with Fan-Out Grating
WHITE PAPER: The Use of Periodically Poled Lithium Niobate (PPLN) in Medical Lasers
TECHNICAL GUIDE: High Power 780 nm for Laser Cooling and Manipulation of Rb Atoms
TECHNICAL GUIDE: Covesion Guide to PPLN: Introduction
Femtosecond OPO based on MgO:PPLN synchronously pumped by a 532nm fiber laser
Green-pumped, picosecond MgO:PPLN optical parametric oscillator
AdvR joins Covesion in Strategic Expansion
Zn-indiffused diced ridge waveguides in MgO:PPLN generating 1 watt 780 nm SHG at 70% efficiency
WHITE PAPER: Periodically poled lithium niobate used in spectroscopy
TECHNICAL GUIDE: Frequency Doubling Femtosecond Fiber Lasers
Leading the Way in Non-Linear Frequency Conversion – Made in Britain, Trusted Worldwide
Precision Unlocked: Covesion Launches Frequency-Stabilised Laser System for Quantum Innovation
High average power parametric wavelength conversion at 3.31–3.48 µm in MgO:PPLN
Zinc-indiffused MgO:PPLN waveguides for blue/UV generation via VECSEL pumping
Fiber Coupled Bulk Crystal Modules Video
WHITE PAPER: Wavelength Conversion in Harsh Environments
TECHNICAL GUIDE: Example uses of PPLN
TECHNICAL GUIDE: Covesion SFG Crystals for Laser Cooling and Trapping
The Quantum Economic Development Consortium (QED-C)
Covesion Wins 2024 IoP Business Innovation Award
CASE STUDY: High Rate of Entangled Photons (HiREP)
TECHNICAL GUIDE: Principles of nonlinear frequency conversion
TECHNICAL GUIDE: How to Use PPLN
CASE STUDY: Wroclaw University of Science and Technology
TECHNICAL GUIDE: PPLN Crystal Grating Design
RESEARCH PROJECT: Mid-IR Upconversion Single-photon detection project (MIRUS)
RESEARCH PROJECT: Space-certified Nonlinear Optical Rugged Quantum Lasers (SNORQL)
RESEARCH PROJECT: Blue Laser Integration with Networked Quantum-Memories (BLINQ)
RESEARCH PROJECT: Calcium Ion Frequency Standard project (CIFS)
RESEARCH PROJECT: High Rate of Entangled Photons (HiREP)
RESEARCH PROJECT: UP-conversion of Single photons for ENvironmental SEnsing (UPSENSE)
Femtosecond optical parametric oscillators toward real-time dual-comb spectroscopy
532nm laser sources based on intracavity frequency doubling of multi-edge-emitting diode lasers
A Nanosecond Optical Parametric Oscillator in the mid IR Region with Double Pass Pump
RESEARCH PROJECT: Single Photon Upconversion Detection (SPUD)
RESEARCH PROJECT: Nonlinear Upconversion Technique for Monitoring Environmental Gases (NUTMEG)
Research Project: Mid-Infrared Free-Space Telecommunications (MIST)
Research Project: Single-photon Enhanced Quantum Optical Network Detector (SEQOND)
Research Project: High Accuracy Robust deployabLE Quantum Inertial Navigation (HARLEQUIN ST)
Research Project: InQKD: Integrated Quantum Light Source for Quantum Key Distribution
Research Project: Broadband Quantum Synthesizer for Ultrafast Quantum Photonics (BQS)
2D IR spectroscopy at 100 kHz utilizing a Mid-IR OPCPA laser source
Optical Parametric Oscillator within 2.4–4.3 μm Pumped with a Nanosecond Nd:YAG Laser
Compact, high-pulse-energy, picosecond, optical parametric oscillator
Realization and characterization of single-frequency tunable 637.2 nm high-power laser
Efficient generation of 509nm light by sum-frequency mixing between two tapered diode lasers
465nm laser sources by intracavity frequency doubling using a 49-edge-emitters laser bar
CASE STUDY: School of Physics and Astronomy University of Glasgow
Single-photon infrared waveguide based upconversion imaging
Edge-enhanced optical parametric generation in periodically poled LiNbO3
Broadband telecom photon pairs from a fiber-integrated PPLN ridge waveguide
Continuous ultraviolet to blue-green astrocomb
CASE STUDY: Institute of Photonics (IOP) Leibniz University of Hannover, Germany