Koheras AdjustiKâ„¢ E15 System0 pages
Koheras AdjustiK E15
Ultra low noise, single frequency fiber laser systems in the 1.5µm range
-
Ultra Low phase noise
Extremely narrow linewidth
Long coherence length
Stable single frequency operation
Excellent power stability
Piezo tuning capability
PM output
Applications
-
Laser interferometry
Acoustic detection
Laser vibrometry
Coherent communication
Microwave generation
Laser spectroscopy
Wavelength references
Atomic trapping
The Koheras AdjustiK™ E15 is a turn-key single frequency DFB fiber laser
system with active wavelength control and wide-range thermal wavelength
tuning. The laser comes with a fast piezo-electric tuning capability, where
the laser wavelength can be modulated externally at kHz modulation bandwidth to lock it to a stable reference.
This E15 benchtop system is based on our industry-leading BasiK™ OEM
laser modules and comes with integrated driver electronics and needs only
110/230 V power supply. The front panel controls ensures easy operation
and the benchtop system is ideal for laboratory work and experimental
research.
The AdjustiK™ system is also available in the 1µm range as the AdjustiK™
Y10 and with output power up to 10W as the BoostiK™ series (please see
separate datasheets).
Model
Wavelength
Output power
PM
Piezo tuning
Standard
1550.12 nm
40 mW
Yes
Yes
Power
1550.12 nm
200 mW
Yes
Yes
Custom
1535 - 1585 nm
40 or 200 mW*
Optional
Optional
* Depending on center wavelength of the laser. 200 mW is available for lasers in the 15451565nm range. Outside this range, the maximum power is 100 mW.
Thermal Tuning
All Koheras fiber lasers are equipped with thermo electrical temperature
controllers (TECs). The TECs not only stabilizes the operation of the laser
desensitizing it to environmental temperature fluctuations, but also makes
it possible to achieve considerable tuning of the center wavelength by
changing the operating temperature of the laser. At standard room temperature (around 20-30°C or 68-86°F) the laser can be thermally tuned an
industry leading 1000 pm. Approximately 350 pm above normal operation
and 650 pm below. Please note, that if the laser is operated in very cold or
hot environments close to the temperature limits, this tuning range is truncated on either the upper or lower side.