Introducing FLEX M-2000 Series, a new concept of cost effective Direct Diode Laser solution in the 2 µm wavelength range for Soft Tissue Surgery, Laser Lithotripsy and Endourology procedures. In the new M-2000 the wavelength can be customized to successfully match the absorption peak of the targeted tissue. In this way, high ablation rate is assured, leading to better treatment results and shorter procedures.
2000 nm is the latest wavelength in our FLEX Series of direct diode lasers, being in this case, suitable for Medical applications. This solution comes to the market to solve the wavelength limitations and as a cost-efficient alternative of others, commonly used lasers, such as solid-state Holmium:YAG and Thulium fiber lasers. While the wavelength emission of these lasers do not exactly match the water peak absorption around 2 µm, FLEX M-2000 offers the possibility to adjust the wavelength by design to perfectly match the water peak absorption, which results in a more efficient ablation.
Electronically pulsed to a frequency that can exceed 1000 Hz, a value that is several times higher than the standard pulse rate in the market of 20-80 Hz, FLEX M-2000 Series opens the possibility for more diverse treatment strategies. The achieved maximum wall-plug efficiency is of about 5%, which is 4 times more compared to a Ho:YAG laser (1-2%). This laser source can be effectively operated in continuous wave (CW) and pulsed mode.
Broad variety of optical fiber core diameters are offered to best match application needs.
|Laser||Laser lithotripsy mode||FLEX M-2000||FLEX M-2000 X (coming soon)|
|Wavelength [nm]||1||1900-2200 (adjustable by design)||1900-2200 (adjustable by design)|
|Spectral width [nm]||2||< 40||< 40|
|Dimensions [cm]||4||42 x 38 x 15||NA|
|Cooling system||6||External water||External water|
|Peak power [W]||7||190||500|
|Average power [W]||8||105||280|
|Pulse rate [Hz]||9||1 - 1000||1 - 1000|
|Pulse energy [J]||10||Adjustable||Adjustable|
We develop your laser to your needs. Fill in the form to define your desired parameters.