OEM Factory for Diode laser BLS 906D to Mauritius Factories
continue to improve, to ensure product quality in line with market and customer standard requirements. Our company has a quality assurance system have been established for OEM Factory for Diode laser BLS 906D to Mauritius Factories, We welcome customers, business associations and friends from all parts of the world to contact us and seek cooperation for mutual benefits.
808nm diode laser hair removal
Display:15 inch touch display
Laser diode life:30000hours
Cooling system Wind+water+semiconductor
Voltage:110V or 220V
Nd:YAG laser rods email@example.com
Nd:YAG (neodymium-doped yttrium aluminum garnet Nd:Y3Al5O12) is a crystal that is used as a lasing medium for solid-state lasers. The dopant, triply ionized neodymium, Nd(III), typically replaces a small fraction of the yttrium ions in the host crystal structure of the yttrium aluminium garnet (YAG), since the two ions are of similar size. It is the neodymium ion which provides the lasing activity in the crystal, in the same fashion as red chromium ion in ruby lasers. Generally the crystalline YAG host is doped with around 1% neodymium by atomic percent.
Pulsed Nd:YAG laser model LQ529C-TEM00 (TEM00 beam)
Compact pulsed Nd:YAG lasers
Compact Pulsed Nd:YAG Lasers
Del Mar Photonics offers compact pulse Nd:YAG lasers with excellent beam quality, high energy/efficiency and possibility of efficient PRR changes with no significant degradation of the output beam parameters. No matter how you may wish to use it — as a standalone laser or as a pump source for tunable lasers and OPO — the Del Mar Photonics LQ529 laser provides a combination of high operation parameters, reliability and reasonable price which could not be achieved earlier.
Ring cavity design of the LQ529 oscillator ensures perfect balance of energy, beam quality and reliability.
Excellent Beam Quality
Compensation of depolarization over the Nd:YAG rod crosssection together with traditional advantages of ring cavities ensure excellent beam profile. Unique optical design of the LQ529 not only makes losses and distortions caused by induced birefringence almost negligible, but also minimizes thermal lensing effect. The above allows the user to vary pulse repetition rate within a wide range and requires no further cavity alignment to preserve high beam quality and output energy.
This constitutes a great advantage over lasers using expensive and difficult to align Gaussian optics and thus demanding realignment and sometimes even replacement of optical components in order to avoid dramatic worsening of their output parameters if pulse repetition rate (PRR) has been changed.
Energy Through Efficiency
One of the main reasons for moderate efficiency of conventional Q-switched lasers is birefringence induced in the Nd:YAG rod leading to depolarization of laser output. Each time the beam passes through the cavity, depolarized lasing is filtered by various polarization units and is dropped out of the cavity that leads to decrease in laser operation efficiency. Optical design of the LQ529 laser cavity allows to practically eliminate energy losses caused by depolarization and provides laser energy output with more than 2% wall-plug efficiency of a laser system (total electrical-to-optical power efficiency). Such a high efficiency allows the LQ529 to provide up to 600mJ output energy without using an amplifier. Single rod and single flash lamp design is the determining factor for reduction of the laser price and maintenance costs.
A power supply unit and a self-contained water-to-air cooling system are integrated into one compact package. Remote controller with the tactile panel and large LCD makes laser operating much more convenient.
Stable And Reliable Operation
One of the obvious advantages of the laser is its absolute mechanical stability and rigidity.
All optical components are mounted on the rigid optical bench which is mechanically and thermally isolated from the laser housing. This ensures exceptional alignment stability even under toughest conditions of transportation and operation. All nonlinear crystals and Pockels cell are temperature stabilized. Optical bench with cavity components is also temperaturestabilized. High-precision termostabilization ensures minimal pulsetopulse and longterm instability. Heating of optical components to the temperature exceeding ambient totally eliminates any risk of condensation. This feature along with dustproof housing protects the optics from damage and minimizes the necessity in service. It should also be noted that the LQ529 laser design eliminates the necessity of any laser alignments after flashlamp replacement, while the replacement procedure itself takes less than 10 minutes.
All Harmonics Available
All harmonic options — 532nm, 355nm, 266nm and 213nm — are available as standard.
High-efficiency Harmonic Generators can be either built-in (except for the FiHG) or supplied as separate units upon the customer’s request. For this reason all the harmonics can be ordered with the laser or at later date.