Select your target wavelength at any wavelength between 6000 nm and 11000 nm.
parameters
|
symbol
|
unit
|
minimum
|
typical
|
maximum
|
---|---|---|---|---|---|
parameters
operating wavelength (at Top, Iop) |
symbol
λop |
unit
nm |
minimum
|
typical
0.1 nm |
maximum
|
parameters
optical output power (at λop) |
symbol
Pop |
unit
mW |
minimum
10 |
typical
20 |
maximum
|
parameters
operating current |
symbol
Iop |
unit
mA |
minimum
|
typical
500 |
maximum
1500 |
parameters
operating voltage |
symbol
Vop |
unit
V |
minimum
|
typical
9 |
maximum
15 |
parameters
threshold current |
symbol
Ith |
unit
mA |
minimum
|
typical
400 |
maximum
|
parameters
side mode suppression ratio |
symbol
SMSR |
unit
dB |
minimum
|
typical
> 35 |
maximum
|
parameters
current tuning coefficient |
symbol
CI |
unit
nm / mA |
minimum
0.05 |
typical
0.1 |
maximum
0.15 |
parameters
temperature tuning coefficient |
symbol
CT |
unit
nm / K |
minimum
|
typical
0.7 |
maximum
|
parameters
operating chip temperature |
symbol
Top |
unit
°C |
minimum
-10 |
typical
20 |
maximum
45 |
parameters
operating case temperature (non-condensing) |
symbol
TC |
unit
°C |
minimum
10 |
typical
20 |
maximum
30 |
parameters
storage temperature (non-condensing) |
symbol
TS |
unit
°C |
minimum
0 |
typical
20 |
maximum
50 |
Optical properties
Typical spectrum of a nanoplus 7970 nm distributed feedback quantum cascade laser (DFB QCL)
Typical mode hop free tuning of a nanoplus 7970 nm distributed feedback quantum cascade laser (DFB QCL)
Typical power, current and voltage characteristics of a nanoplus 7970 nm distributed feedback quantum cascade laser (DFB QCL)
nanoplus uses a unique and patented technology for DFB laser manufacturing. We apply a lateral metal grating along the ridge waveguide, which is independent of the material system. Read more about our patented distributed feedback technology.