Koheras BASIK – single-frequency fiber lasers

The Koheras BASIK single-frequency DFB fiber lasers are outstanding industrial low-noise Erbium and Ytterbium lasers. Get a low phase noise and a Hz-range linewidth typically only found in costly scientific systems.

The laser design ensures an inherent and robust single-frequency operation without any mode-hops. The footprint fits into the Koheras ACOUSTIK as a line card for multi-wavelength applications.

Models and options

X15 Erbium lasers

Standard wavelength 1550.12 nm

Output power 30 mW

Options

Erbium-doped fiber laser for operation in the 1535-1580 nm wavelength range offering the lowest phase and frequency noise and narrowest linewidth of the entire laser portfolio

E15 Erbium lasers

Standard wavelength 1550.12 nm

Output power 40 mW

Options

Erbium-doped fiber laser for operation in the 1535-1580 nm wavelength range offering the lowest phase and frequency noise and narrowest linewidth of the entire laser portfolio

Y10 Ytterbium lasers

Standard wavelength 1064.00 nm

Output power > 10 mW

Options

Ytterbium-doped fiber laser system for operation in the 1030-1120 nm wavelength range with narrow linewidth and low-intensity noise.

Other options

Options

Polarization-maintaining operation. Thermal wavelength tuning. Fast wavelength tuning.

Want to know more?

Get in touch with one of our Koheras laser experts and learn more

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Selected application areas

Distributed acoustic sensing – DAS

Distributed Acoustic Sensing for smart cities

Oil and Gas Sensing

Cases from users of Koheras

Cases

Danish photonic quantum computer

Over the next four years, a new innovation consortium will create a photonic quantum computer. The consortium will develo …

Cases

Quantum noise squeezing with Koheras lasers

The Nonlinear Quantum Optics group at the University of Hamburg has been working with Koheras BOOSTIK lasers to make sque …

Cases

Coherent free-space transmission through the atmosphere

The University of Western Australia (UWA) has developed an active stabilization system that can perform coherent free-spa …

This range of lasers is offered as compact modules typically for industrial OEM integration. It is also designed as a building block for our ADJUSTIK benchtop systems and the ACOUSTIK multi-channel systems. It is supplied with our user-friendly CONTROL software for the control and read-out of laser parameters on a PC such as wavelengths, output power, and RIN suppression.

Any interferometric use that requires high-frequency stability or a long coherence length will benefit from this type of laser technology. The typical applications are remote sensing, including seismic sensings, such as oil and gas exploration and exploitation, security (perimeter and pipeline detection), and structural pipeline monitoring.

Furthermore, the low-intensity noise of the lasers combined with the high spectral stability makes them ideal as sources for wind LIDAR systems used for the wind turbine and aerospace industry, as well as for interferometry laser vibrometry sensing systems.

Want more details?

If you want more details about phase noise, spectral linewidth, frequency stability, or how to wavelength tune your Koheras laser, we have some application notes for you.

Laser phase noise is a frequency-domain view of the noise spectrum around the laser signal. Read more about phase noise in single-frequency lasers.

Spectral linewidth is a measure of the spectral content of the laser light. Read more about linewidth measurement methods.

The laser’s frequency stability is often described in terms of its spectral linewidth. However, this term lacks detail about the laser frequency noise which is often critical in laser applications. Read the analysis of the laser frequency stability using beat-note measurements. 

Specifications

Choose model:

BASIK X15

BASIK E15

BASIK Y10

Laser emission

CW – inherently single frequency

CW – inherently single frequency

CW – inherently single frequency

Beam quality

M² < 1.05

M² < 1.05

M² < 1.05

Linewidth¹⁾

< 0.1 kHz

< 0.1 kHz

< 20 kHz

Max phase noise @1 Hz (typical)

-105 dB((Rad/√Hz)/m)

–

–

Max phase noise @10 Hz

-125 dB((Rad/√Hz)/m)

-90 dB((Rad/√Hz)/m)

–

Max phase noise @100 Hz

-130 dB((Rad/√Hz)/m)

-110 dB((Rad/√Hz)/m)

–

Max phase noise @1 kHz

-128 dB((Rad/√Hz)/m)

–

–

Max phase noise @20 kHz

–

-130 dB((Rad/√Hz)/m)

–

Max phase noise @1 Hz (typical)

5.6 (µrad/√Hz)/m

–

–

Max phase noise @10 Hz

0.6 (µrad/√Hz)/m

32 (µrad/√Hz)/m

–

Max phase noise @100 Hz

0.3 (µrad/√Hz)/m

3.2 (µrad/√Hz)/m

–

Max phase noise @1 kHz

0.4 (µrad/√Hz)/m

–

–

Max phase noise @20 kHz

–

0.3 (µrad/√Hz)/m

–

RIN peak

App. 0.7 MHz

App. 0.7 MHz

App. 1.5 MHz

RIN level @ peak

<-100 dBc/Hz

<-100 dBc/Hz

<-105 dBc/Hz

RIN level @ 10 MHz

<-135 dBc/Hz

<-135 dBc/Hz

<-140 dBc/Hz

Optical S/N (50 pm res.)

> 50 dB (typ. > 55 dB) ²⁾

> 50 dB (typ. > 55 dB) ²⁾

65 dB (typ > 70 dB)

Min thermal wavelength
tuning range³⁾

± 125 pm

± 350 pm

± 240 pm

Total thermal tuning range

350 pm

1000 pm

680 pm

Fast wavelength
modulation range⁴⁾

 0.5 GHz

8 GHz

10 GHz

Fast wavelength modulation⁴⁾

< 20 kHz

< 20 kHz

< 20 kHz

PM output – PER⁴⁾

> 23 dB

> 23 dB

> 23 dB

Monitor optical output

FC/APC

FC/APC

FC/APC

^{1) Lorentzian
2) >47 dB (typ. > 52 dB) for non-PM version
3) Relative to center wavelength at room temperature. If the laser is operated in very cold or hot environments, this wavelength range is truncated on either the upper or lower side.
4) Default for X15 and Y10.}

Chart by Visualizer

BASIK X15

BASIK E15

BASIK Y10

Dimensions (WxHxL)

91.2(111) x 22.5 x 220 mm

91.2(111) x 22.5 x 220 mm

91.2(111) x 22.5 x 220 mm

Weight

0.6 kg

0.6 kg

0.6 kg

Operating temperature range ¹⁾

+15 to +60°C

+15 to +60°C

+15 to +60°C

Storage temperature, non-condensing

-20 to +60°C

-20 to +60°C

-20 to +60°C

Humidity

0-70% RH

0-70% RH

0-70% RH

^{1) Module temperature}

BASIK X15

BASIK E15

BASIK Y10

Power supply requirements

12 VDC

12 VDC

12 VDC

Power consumption

Typical 4 W, max 10 W

Typical 4 W, max 10 W

Typical 4 W, max 10 W

Electrical interface

30 pin DIN41612 male

30 pin DIN41612 male

30 pin DIN41612 male

Fast modulation drive voltage

Differential 2×5 V w/ common-mode voltage at 2.5 V

Differential 2×5 V w/ common-mode voltage at 2.5 V

Differential 2×5 V w/ common-mode voltage at 2.5 V

Connectors – standard

FC/APC pigtailed

FC/APC pigtailed

FC/APC pigtailed

Connectors – option

Bulkhead/pigtailed FC/APC, SC/APC

Bulkhead/pigtailed FC/APC, SC/APC

Bulkhead/pigtailed FC/APC, SC/APC

Monitor output

Optional

Optional

Optional

Related products

Koheras ACOUSTIK

Modular line card fiber laser

Koheras BOOSTIK

Single-frequency fiber amplifier line card

Koheras ADJUSTIK

Benchtop single-frequency fiber laser