Photon Engineering Pty Ltd

_Product Focus:

•	Turnkey Laser Systems
•	Integrated Laser Solns
•	Laser Modules & OEM
•	Fibre Optics & Photonics
•	Laser Optics & Accessories

_Manufacturer Focus:

Integrated Solutions for Laser Applications
Photon Engineering can supply fully integrated laser systems specifically tailored to industrial and scientific applications. Complete industrial solutions including laser, scanner and control software are available for laser marking, cutting and welding applications. Unique scientific devices based on tunable laser technology are available for spectroscopy, diagnostic and PIV systems.

NOTE: Customers can send sample materials to Photon Engineering for a complete analysis of their industrial materials processing requirements to identify the ideal laser for their application (typical lead time is 2-4 weeks).

FLM Fibre Laser Marking Systems (general info)	Fibre Lasers are the most reliable and cost effective form of laser marking for many metals, ceramics, plastics and polymer materials. This general brochure about fibre laser marking explains the many advantages of fibre lasers for materials processing applications. JDSU marking systems include laser, scanner and software - and are available in either CW or pulsed format.
CW Fibre Laser Marking Systems	The CW FLM series is ideal for high quality marking applications in metals, ceramics and polymers. CW systems with 1100nm laser output are available with average powers ranging from 9W to 50W. In addition dual head versions are avilable for high processing thoughput using 2 laser beams simultaneously.
Pulsed Fibre Laser Marking Systems	The Pulsed FLM series is ideal for high speed marking applications in a wide variety of materials including metals, ceramics, plastics, polymers and etching coated devices. Pulsed laser systems with 1100nm laser output are available with average powers ranging from 9W to 20W. Peak powers up to 10kW at rep rates up to 100kHz enables a faster processing speed compared to an equiavalently powered CW laser.
Industrial Diode Laser Welder & Solderer	JDSU's Industrial Diode Laser systems deliver up to 50W of 810nm output and can be integrated with laser scanner and control software. These Industrial Diode systems are ideal for cutting and welding of plastics and fabrics as well as high throughput soldering of electronics devices.
CW 532nm laser for PIV and LDV Studies	The 532nm cw green laser from JDSU can provide up to 50mW of output at 532nm. It incorporates beams shaping optics that provide a low divergence laser and excellent mode quality. A compact model is available that still provides excellent beam quality for its size. It comes complete with PC interface and control software making it ideal for use in particle image velocimetry (PIV) and Laser Doppler Velocitometry (LDV) applications.

Picosecond Laser
Systems for Micromachining

Lumera Laser manufacture the most cost effective & robust picosecond lasers for high resolution micromachining applications. Industrial picosecond lasers are fast becoming the ultimate tool for high precision micro-machining and micro-marking applications. Photon Engineering can integrate these lasers with numerous control and delivery systems tailored to the unique requirements of the application.

NL300D Laser for PIV studies	The NL300D series of dual oscillators Nd:YAG lasers are designed to suit most liquid and air based particle image velocimetry (PIV) applications. Extremely low jitter of the optical pulse with respect to the sync pulse allows for reliable synchronisation of the laser with external equipment - crtical for ultrafast PIV applications.
Glass Script glass marking system	This Nd:YAG laser system comes complete with laser delivery system, imaging camera, safety hood and control software and is specifically designed for intravolume (or sub surface) glass marking applications. Ideal for marking 2D or 3D images for either decorative, trademark or serial number applications.
Glass Master glass marking system	This Diode-Pumped Nd:YAG laser system comes complete with laser delivery system, imaging camera, safety hood and control software and is specifically designed for intravolume glass marking applications. With up to 300 dots per second over a large marking area this system is designed for high throughput applications. Ideal for marking 2D or 3D images in glass for either decorative, trademark or serial number applications.
Nanosecond Luminescence Spectrometer	Complete luminescence spectrometer consisting of a Nd:YAG / tunable OPO laser source combined with monochromator, data acqusition units (DAQ), digitizer, optics for excitation beam guiding and luminescence signal detection. Produces luminescence spectra, excitation spectra and luminescence time response parameters.
HOLO Holographic Module	Holographic module for nondestructive monitoring of semiconductors. Based on a 4 wave mixing technique HOLO provides for a novel contactless device that can be attached to any pulsed laser source for investigation of nonlinear optical and photoelectric phenomena in semiconductors. In addition HOLO can be used to investigate bulk crystals and heterostructures during the processes of doping, co-dopding, ion implant, annealing etc.
SFG Spectrometer	SFG is a nonlinear optical process that is used to generate the vibrational spectrum of molecules at an interface. It is a unique optical technique that is a non-destructive but powerful tool for in-situ investigation of surfaces and interfaces. Ideal for analyzing polymers, organic molecules, crystals, liquids and metal monolayers at critical surface interfaces.
SHG Spectrometer	Second Harmonic Generation (SHG) spectrometer is an extension of the SFG spectrometer that can be used to determine the average orientation and surface symmetty of molecular adsorbates. Tunable options enable surface specific mono-layer spectroscopy.
Picosecond Time resolved Spectrometer	Time resolved picosecond luminescence from 210nm to 2300nm is measured via excitation of the sample by a picosecond Nd:YAG / OPG system and measurement of the spectra using a streak camera and/or fast photomultiplier and digital oscilloscope.
AMBER 5:- Differential Absorption LIDAR	Complete LIDAR system for 3D remote monitoring of air pollutants up to 4km range. Ideal for detection of molecules such as sulphur dioxide, nitrogen dioxide and ozone. Can also be used for monitoring Benzene and Toluene as well as the spatial and temporal distribution of aerosols.