- Single-frequency laser with distributed-feedback diode
- Available wavelengths: 633 nm, 760 nm .. 3500 nm
- Mode-hop free tuning range: Up to 1400 GHz
- Reliable operation even in harsh environments
- 3 laser heads – wide range of options
Distributed feedback (DFB) lasers unite wide tunability and high output power. The frequency-selective element – a Bragg grating – is integrated into the active section of the semiconductor and ensures continuous single-frequency operation. Due to the absence of alignment-sensitive components, DFB lasers exhibit an exceptional stability and reliability. The lasers work under the most adverse environmental conditions – even in the Arctic or in airborne experiments.
Three laser heads, designed specifically for DFB lasers, accommodate different diode packages: the compact DFB pro and its “big brother” DFB pro L integrate 9 mm or TO3-type diodes. The DFB pro BFY offers a dedicated laser head for butterfly-type diodes.
Owing to their wide continuous tuning range, DFB lasers lend themselves particularly to applications in atomic and molecular physics, gas sensing, phase-shifting interferometry, and continuous-wave terahertz generation.
DFB pro DFB pro L DFB pro BFY Center wavelengths 633 nm, 760 nm - 3500 nm 1064 nm .. 2000 nm * Output power 2 .. 150 mW 10 .. 100 mW (fiber output) Tuning range 2 .. 6 nm 2 .. 5 nm, mode-hop free
- Additional Information
Fiber Coupling (FiberDock)
TOPTICA’s patented fiber coupler provides highest single-mode fiber-coupling efficiencies, easy alignment and at the same time highest stability. TOPTICA additionally offers a wide range of single-mode and polarization-maintaining fibers, including fiber-optic beam splitters. Optical isolation is mandatory for fiber-coupled diode laser systems. Isolators are used to protect the laser diode against back reflections. This not only prevents damage to the diode but also ensures untroubled tuning and single-frequency operation. Fiber-coupling with angle-polished fibers (both ends) requires at least a single-stage isolator (> 30 dB). Double-stage isolators are needed if reflections from the experiment into the laser are expected. Fiber-coupling with non-angle-polished fibers also requires a double-stage isolator (> 60 dB).
To shape elliptical laser beams into round profiles, either an anamorphic prism pair (APP) or cylindrical lenses are used. The compressed circular beam is small enough for using inexpensive small-aperture isolators, and the fiber-coupling efficiency is enhanced by approximately 10 %. The compression ratio is set at the factory.
The DL pro (HP) has two modulation inputs that allow current modulation frequencies of up to 150 MHz. A Bias-T allows even higher current modulation frequencies of up to several GHz, depending on the diode. It is also suited for seed lasers of TA or NLO systems but not for DL pro HP lasers.
Electronics Modules A broad variety of electronic locking modules is available for frequency stabilization.
- Alkaline spectroscopy
- Molecular physics
- Gas sensing
- Interferometry and holography
- Optical communication
- Magnetic-field measurement
- Continuous-wave terahertz generation
- Application Note: Biomagnetic measurements benefit from laser know-how
- Application Note: 12 Orders of Coherence control
- Scientific Publication: S. Lee, et al., Terahertz-visible two-photon rotational spectroscopy of cold OD-; Phys. Rev. A 93 (2016)
- S. Kraft et al., Rubidium spectroscopy at 778-780 nm with a distributed feedback laser diode, Laser Phys. Lett. 2:2 (2005)
- F. Friederich et al., Phase-locking of the beat signal of two distributed-feedback diode lasers to oscillators working in the MHz to THz range, Opt. Express 18:8 (2010)
- F. Friederich et al., Hybrid continuous-wave demodulating multipixel terahertz imaging systems, IEEE Transact. Microwave Theory and Techn. 58:7 (2010)
- K. Niemi et al., The role of helium metastable states in radio-frequency driven helium–oxygen atmospheric pressure plasma jets: measurement and numerical simulation, Plasma Sources Sci. Technol. 20:5 (2011)
- DLC pro: Fully digital driver electronics. Low noise with inuitive multi-touch UI
- CTL: Continuously tunable diode laser
- DL pro: The ultimate Littrow ECDL - stable and user friendly
- DL 100: Economic Littrow type ECDL in modified Hänsch design
- TA pro: pro series ECDL with tapered amplifier
- BoosTA pro: Semiconductor amplifier for higher powers
- Frequency converted diode lasers for all other wavelengths
- Laser Locking Electronics: A broad variety is available for frequency stabilization
- AR, FP, and DFB Laser Diodes
- Numerous Photonicals, tools and helpful equipment for working with lasers, for example Fabry-Perot Interferometers