THE TUNABLE LASER LIGHT SOURCE HÜBNER Photonics Coherence Matters.
FLEXIBILITY WITH PRECISION is the tunable laser light source for continuous-wave (cw) emission in the visible and near-infrared wavelength range. Its technology is based on optical parametric oscillation (OPO) and it is fully computer controlled. Thus, it allows you to tune from blue to red and into the near-infrared without any change of dyes or optical components. This makes a flexible and userfriendly laser for your applications. Change the way you work Visible, widely tunable, continuous-wave for a long time this was equivalent to the handling of toxic dyes, to changing laser media or resonator mirrors or the restriction to narrow tuning ranges. is a solid state system that has no consumable components such as dyes. The wavelength can be simply set at the computer. tunes itself automatically and guarantees superior beam quality as well as output stability across the whole tuning range offering both high flexibility and precision at the same time. It offers you single frequency operation, narrow spectral linewidth and options for frequency stabilization combined with an unprecedented spectral coverage. Focus on your research, not on laser handling: helps you free your mind for your main tasks. Precision and flexibility for demanding applications: Atomic physics Quantum optics Metrology Spectroscopy Biophotonics Photochemistry Holography Interferometry and much more! Operation Principle combines two nonlinear processes to achieve its outstanding spectral coverage: In the first step (OPO), a 532 nm laser pumps a nonlinear periodically-poled crystal. Signal and idler photons with tunable frequencies in the near-infrared wavelength regime from 900 nm to 1300 nm are generated. Subsequent second harmonic generation (SHG) using a frequency doubling crystal leads to conversion of the signal photons into colours from blue to green (450 525 nm), while the idler photons get converted into colours from green to red (540 650 nm). The modular design of enables you to choose the colour ranges that you require! Pump laser Signal SHG SHG OPO Idler 500 600 700 800 900 1000 1100 1200
WIDE TUNABILITY CHOOSE YOUR COLORS OUTPUT POWER TAILORED TO YOUR NEEDS The concept of allows the user to build laser-light sources for tunable continuous-wave emission from the near UV to the infrared. The bright windows in the spectral coverage chart indicate the full standard tuning range of. Other wavelength ranges are available upon request. Note: in the tuning range 525 540 nm and 1050 1080 nm, the specified parameters are not guaranteed. If you plan to perform your experiments at wavelengths within those gaps, just contact us. Depending on the required output power level, is either pumped by an external single-frequency laser or comes with an integrated laser, making operation and application even easier for you. 500 1.05 PUMP LASER OPTIONS Wavelength options (Multiple selection possible): IR (900 1300 nm)* Blue (450 525 nm) Product Diode laser SPECTRAL COVERAGE COMPARISON CHART Spectral coverage Output Power [mw] 400 300 200 100 High power Low power Output Power [arb.u.] 1.00 Integrated pump laser (1.5 W) External pump laser (5 W) Power options: Low power: Orange (540 650 nm) * gap at 1050 1080 nm Dye laser (several dyes) 0 450 500 550 600 650 0.95 0 10 20 30 40 50 60 Time [min] > 200 mw for IR > 80 mw for Blue & Orange High power: 400 500 600 700 800 900 1000 1100 1200 1300 1400 Figure 1: Typical output power over the visible wavelength range with 5 W pump laser (high power) and 1.5 W pump laser (low power). Figure 2: Power stability of : Output power over time measured at 571 nm. > 400 mw for IR > 200 mw for Blue & Orange
Wavelength / nm 640,310010 640,310008 Setpoint: 640,310000 nm 640,310006 640,310004 640,310002 640,310000 640,309998 640,309996 +/- 1,5 MHz 640,309994 640,309992 640,309990 0 3 6 9 12 15 Time / h Figure 3: Exemplary measurement of stabilized wavelength using AbsoluteLambda. FREQUENCY STABILIZATION PRECISION YOU CAN COUNT ON Absolute wavelength control better than 1 nm requires an external reference, e.g. wavemeter or reference spectrum (user`s choice). The software module AbsoluteLambda for enables precision and automatic frequency control with accuracy up to 2 MHz*. Control and fine tuning are achieved using intra-cavity elements and piezo-tuning of the cavity length. A schematic overview of an experimental setup is shown in Figure 4. PC controlling Software module: AbsoluteLambda data connection, Ethernet data connection, USB Figure 4: Schematic overview of an experimental setup with using AbsoluteLambda. Wavelength meter Using AbsoluteLambda gives you the opportunity for an automized selection of wavelength with high accuracy (setpoint +/- 1 MHz) and a drift-free wavelength stabilization (+/- 1 MHz). An exemplary measurement of stabilized wavelength** can be seen in Figure 3 and shows high stability over more than 12 hours. * depends on applied wavemeter ** please contact our sales team for recommendation of suitable wavemeters beam splitter, T> 99% fiber coupler optical fiber SPECIFICATIONS Wavelength range Wavelength selection Accuracy of wavelength setting Power VIS a) IR b) 450 650 nm a) ± 1 nm 900 1300 nm b) ± 2 nm computer controlled internal ± 1 nm ± 2 nm with external wave-length measurement < 1 MHz c) with 1.5 W pump laser with 5 W pump laser > 80 mw > 200 mw > 200 mw > 400 mw Amplitude noise < 5 % c) < 1 % c) Beam polarization > 1000:1 (horizontal) Beam profile TEM 00, M 2 < 1.2 d) Beam radius (1/e²) 0.5 mm c) 0.2 mm c) Beam divergence 0.5 mrad c) 2 mrad c) Linewidth < 1 MHz e) Mode-hop-free tuning > 25 GHz e) > 12 GHz e) Warranty 12 months a) not specified at 525-540 (±2) nm; range depending on selected wavelength modules b) not specified at 1050-1080 (±4) nm; range depending on selected wavelength modules c) typical value d) not specifi ed at 450-480 nm and 900-960 nm e) depending on the pump laser DIMENSIONS Length Width Height 59 mm Weight TECHNICAL DATA Computer Interface Ethernet / RJ 45 Power supply Power consumption 110 V / 230 V < 200 W Cooling Closed-loop chiller a) a) Please contact us for compatible chillers. REQUIREMENTS Operating temperature range 20 25 C, constant Relative humidity 10 85 %, non condensing Mounting surface Environment 410 mm 575 mm 575 mm 410 mm 155 mm 34 kg vibration-isolated optical table free of dust 155 mm Designed according to UL standards. Wavelength options (Multiple selection possible): IR (900 1300 nm)* Blue (450 525 nm) Orange (540 650 nm) Power options: Low power: > 200 mw for IR > 80 mw for Blue & Orange High power: > 400 mw for IR > 200 mw for Blue & Orange Frequency stabilization: AbsoluteLambda Further options available: * gap at 1050 1080 nm Fast mode-hop-free tuning: > 25 GHz, up to 14 GHz / second Fiber Coupling Option Low Noise Option: Noise Eater Setup
Germany United Kingdom Sweden Russia Turkey India Colombia France Italy Hungary Malaysia China United States Brazil South Africa This isn t just another technology company. an understanding based on mutual respect, For more than 70 years, the HÜBNER Group honesty and products you can trust. has been around. More than 2,600 employees Coherence Matters is in our genes and our HÜBNER GmbH & Co. KG Division HÜBNER Photonics Heinrich-Hertz-Straße 2 34123 Kassel, Germany Tel. +49 561 998-1615 Fax +49 561 998-2025 photonics@hubner-germany.com worldwide serve customers every day with spirit all day, every day. www.hubner-photonics.com PHOTONICS: EN Edition: April 2018 Subject to change