Product Brief INNOSLAB
INNOSLAB LASER
High Energy kHz Pulsed Cavity Dumped DPSS Nd:YAG Lasers
- Short pulse duration and high peak output power – precision processing with small heat affected zones
- High beam quality approaching the theoretical maximum – micro-processing
- High performance and scalability – high productivity
- Compact design and outstanding reliability – low cost of owner ship
- High efficiency – low energy consumption and environment friendly
- High flexibility in beam profile – processing with maximum energy efficiency.
제조사 EdgeWave GmbH Innovative Laser Solutions
가격 TBD
문의 정세웅책임/기술, 김지철이사/영업 (T. 02-3461-1103)
제품 특징

INNOSLAB LASER

In a q-switched InnoSlab laser a slab shaped and contact cooled crystal and a Pockel cell are used.

A typical intensity distribution of the output beam in near field is shown in the following figure on the left. Along the small dimension of the pumping cross section the intensity distribution is Gaussian and along the large dimension the intensity profile is nearly top-hat with slight diffraction structures.

By using a cylindrical telescope and a spatial filter the laser beam cross section can be symmetrized. The figure on the right shows a typical intensity distribution in far field. After the spatial filter, a rotational-symmetric beam is produced with a beam quality M2 in one direction of 1.1 and of 1.2 in the perpendicular direction.

Using a special beam shaping optic the original one dimensional top-hat beam can be transformed to a two dimensional top-hat beam with a rectangular or a square cross section. Laser beams with two dimensional top-hat and rectangular or square cross section are ideal beams for ablation processes with high throughput.

 

To scale the pulse energy and average output power an oscillator/amplifier setup is used. The Figure below shows the typical pulse energy and pulse length of the HD40I-E laser. The pulse energy is 50mJ at 6kHz and the pulse length as short as 7ns because of the short resonator, which is less than 10cm long. The peak power of 7MW is the world record of industry q-switched lasers at multi kHz high repetition rate.

The figure in the right shows the output power of a HD40II-E with Nd:YVO4 in dependence of the pump diode current. At 50kHz the average power is 400W. Using two LBO-frequency conversion crystals more than 300W average power in the green spectral range (the second harmonics of the fundamental infrared wavelength) was obtained. The pulse length is 8ns in the infrared (IR) and 7ns in the green (the second harmonic).

Our innovation is the InnoSlab technology which enables us to construct lasers that represent a new generation of laser beam sources. InnoSlab lasers are very compact laser sources and have the ability to obtain a high beam quality simultaneously with high efficiency and high output.

Through an optimal combination of crystal shape, cooling and resonator design, InnoSlab lasers have  special qualities not found with other types of lasers:

  • Short pulse duration and high peak output power – precision processing with small heat affected zones
  • High beam quality approaching the theoretical maximum – micro-processing
  • High performance and scalability – high productivity
  • Compact design and outstanding reliability – low cost of owner ship
  • High efficiency – low energy consumption and environment friendly
  • High flexibility in beam profile – processing with maximum energy efficiency.

Our standard product portfolio encompasses electro-optical Q-switched InnoSlab lasers with various laser media, pulse energy and output power and a choice of wavelengths

  • beam quality: M² < 2
  • pulse energy up to 60mJ
  • pulse length down to 4ns and to the ps-range (PX-series)
  • peak power up to 7MW
  • pulse rep. rate up to 100 kHz
  • average power up to 600W
  • wavelength 1064, 532, 355, 266nm

A distinguished and enabling feature of InnoSlab lasers is the tailored beam profile: from circular Gaussian, through line shaped one dimensional Top-hat to square two dimensional Top-hat – customizable for your requirements.


INNOSLAB AMPLIFIER

In the InnoSlab amplifiers high gain, high efficiencies and high damage threshold are unified by matching the beam cross section to the peak power of the amplified laser radiation after each pass via beam expansion defined by the cavity-like folding mirrors. This enables high amplification factor of the laser power or pulse energy at high efficiency and high beam quality.

In order to scale power and energy output oscillator-systems (MOPA) are often used. The main problem in most MOPA designs is to obtain efficient amplification with a large amplification factor due. The problem is due to the controversial behavior between the saturation for high efficiency and the gain for a large amplification factor. This problem is solved by the InnoSlab amplifier design where a slab shaped crystal and two folding mirrors for generation of multipass are used. The slab crystal is pumped by diode lasers.

Based on the InnoSlab amplifier design discussed above large amplification factor and at the same time obtaining high efficiency can be achieved.