Ultrafast Laser: US$9,800 (US$8,800 without LD)
With this Mode Locked Yb Fiber Laser Kit for US$9,800, you can easily built up an ultrafast laser (femtosecond laser・picosecond lase) costing from several tens of thousand US dollars to one hundred thousand US dollar in the market. Because this kit can be assembled thanks to the manual just like a plastic bricks construction game, you will easily be able to obtain laser source developing know-how.
*Please ask us too if you need finished products which we can negotiate at low cost
::What is an “ultrafast laser” ?
::What is a “fiber laser” ?
Contents
Structure and Specifications
Structure
The Mode Locked Yb Fiber Laser Kit includes the followings.
- a set of optical parts
- a semiconductor laser (LD) (※ available also without LD)
- an easy assembly manual
This kit works on NPR (Nonlinear Polarization Rotation) as a principle of mode locking.
This kit is made with optical elements selected so that every optical parts are aligned (optical axis) with the laser beam going there through. The mode locking will work as early as few hours after you have received it.
::Explanation of nonlinear polarization rotation
Structure of the Mode Locked Yb Fiber Laser Kit
Movie of “Mode Locked Yb Fiber Laser Kit”
State of vertical mode at mode locking (Repetition frequency: 40 MHz)
Example 1 of Specifications
Shown at the bottom in the case of Soliton pulse mode locking)
Pulse width:670 fs
Center wavelength:1040 nm
Spectral width:8.0 nm
Average output:10 mW
Repetition frequency:40 MHz
Energy : 0.25 nJ
Peak power: 370 W
One example of auto-correlation waveform and spectrum at the time of soliton pulse mode locking
Example 2 of Specifications
(Shown at the bottom) in the case of stretch pulse Mode Locked
Pulse width : 1 ps (※ 62 fs, with an external 1.0 um band transmission type pulse compressor)
Center wavelength: 1035 nm
Spectral width: 55 nm
Average output: 100 mW
Repetition frequency : 45 MHz
Energy:2.2 nJ
Peak intensity:2.2 kW(32 kW, after pulse compression)
One example of auto-correlation waveform and spectrum at the time of stretch pulse mode
Example 3 of specifications
Pulse width: Sub ps
Center wavelength : 1055 nm(1030 ~ 1060 nm, variable)
Spectral width: 25 nm
Average output : 50 mW
Repetition frequency : 40 MHz
Energy:1.2 nJ
Peak intensity:several kW
State of wavelength –tuning (Slit set for wavelength tuning is required)
Examples of applications
Listed below are the research papers reporting detailed studies with mode locked fiber laser having a structure similar to this kit. Some users customize this experimental kit to adapt the laser source for use in laser microscope, OCT, laser processing, or THz.The research paper using this kit is published in “Nature Photonics” which is a world’s top level scientific journal.
- “High-speed molecular spectral imaging of tissue with stimulated Raman scattering “, Nature Photonics 6, 845–851 (2012).This kit is used.
- “Stimulated Raman hyperspectral imaging based on spectral filtering of broadband fiber laser pulses”, Optics Letters, Vol. 37, Issue 3, pp. 431-433 (2012).
- “Subharmonic Synchronization of Picosecond Yb Fiber Laser to Picosecond Ti:Sapphire Laser for Stimulated Raman Scattering Microscopy”, Jpn. J. Appl. Phys. 51 022702 (2012).
- “Stimulated Raman scattering microscope with shot noise limited sensitivity using subharmonically synchronized laser pulses”, Optics Express, Vol. 18, Issue 13, pp. 13708-13719 (2010).
- “Quasi-supercontinuum generation using 1.06μm ultrashort-pulse laser system for ultrahigh-resolution optical-coherence tomography”, Optics Letters, Vol. 35, Issue 21, pp. 3631-3633 (2010). The state of Soliton Self Frequency Shift
Price and Shipment
Product Name: Mode Locked Yb Fiber Laser Kit
Product Number: FL-MLYb-kit
Price:US$9,800(tax-excluded)(※ US$8,800 without LD(tax-excluded)
Shipment: one week after receipt of order at shortest
two months after receipt of order at longest
*A power source for the semiconductor laser is not included.
**Inform us if you do not have a fusion splicer.
** Please understand that we don’t sell partial sets, only full kits.
*“Small-sized Mode Locked” is recommended if you do hope a kit closer to a finished product.
*For getting a higher intensity, you can use this kit together with a fiber
amplifier kit or a high pulse energy type femtosecond regeneration amplifying kit
*Mode Locked Fiber Laser Kits with center wavelength of 1.5 μm
or 0.9 μm are also available.
*We offer finished products of Mode Locked Fiber Laser.
Options (sold separately)
Required items
It is used to drive a semiconductor laser (LD).
If you do not have an LD power supply, please choose from three models.
::Precautions when handling semiconductor lasers
14-pin butterfly LD power supply for large current
This is an all-in-one type LD power supply that combines a current controller, temperature controller, and LD holder into one.
US$ 2,450(Tax excluded)
14-pin butterfly LD power supply kit for large current (with liquid crystal display)
A compact LD power supply kit with a liquid crystal display.
US$ 1,595 (Tax excluded)
Thorlabs LD power supply
Current controller, temperature controller, LD holder included
approx. US$ 2,900(Tax excluded)
Pedestal clamp for fixing the D power supply to the breadboard
Set of 4 each
approx. US$ 240(Tax excluded)
It is used to place and fix optical products. Required if you do not have an optical surface plate.
Material: Aluminum (black alumite) Size: 450 x 600 x 12.7 mm
OTSB456-1
approx. US$ 400(Tax excluded)
The excitation laser and the laser output from the kit are invisible. A special viewer card is required to check the laser light.
::IR sensor (viewer) card description
Please contact us
It is used to connect optical fibers together. If you do not have a fusion splicer, please choose from two models.
::Explanation of fusion splicer
Compatible with single-core optical fibers (cladding diameter 80 μm to 150 μm)
approx. US$ 10,000(Tax excluded)
Compatible with single-core optical fiber (clad diameter 125 μm),
inexpensive
Compatible with single-core optical fiber (clad diameter 125 μm),
inexpensive
US$ 1,980(Tax excluded)
Recommended items
It is a more detailed manual than the attached simple assembly manual. With this manual, mode synchronization is easy.
The following contents are described.
- Detailed explanation of the assembly method
- How to apply nonlinear polarization rotation mode locking
- Troubleshoot mode sync loss
YbManual
US$ 1,000 (Tax excluded)
It is used to check the mode lock and measure the spectrum of laser light. You can also use a photodetector oscilloscope to check the mode lock.
::Optical spectrum measurement method
::Explanation of spectrometer
approx. US$ 1,900(Tax excluded)
You can measure the power of laser light. When assembling the kit, you can check that the laser light is being guided efficiently.
::Power meter description
approx. US$ 700(Tax excluded)
Optional item
You can measure the intensity of laser light by connecting it to an oscilloscope. By observing the pulse train, you can see how the mode lock is applied.
::Photo detector description
ET-3000A
Please contact us
In addition to the pulse width of ultrashort pulsed laser light, the phase can be measured simultaneously.
::FROG commentary
Please contact us
It is used to protect optical products from dust.
Size: 525 x 375 x 300 mm
approx. US$ 450(Tax excluded)
Other items
You can systematically learn about fiber lasers.
ISBN-10: 4902312476
–
You can manually change the wavelength from 1020 nm to 1090 nm.
WT-SL-k
US$ 1,000(Tax excluded)
The pulse width can be finely adjusted by inserting and removing the high dispersion glass. 25 mm prism and each thickness 5, 10, 20, 40, 50, 100, 150 mm are available.
Wavelength 1045 nm can be changed to 522.5 nm or wavelength 1030 nm can be changed to 515 nm.
::Explanation of wavelength conversion
You can pulse stretch femtosecond pulses to picosecond or nanosecond pulses.
::Explanation of pulse stretcher
Please contact us
(For custom made)
A fiber amplifier can be used with a pulse energy of several nJ to around 100 nJ.
::Explanation of optical fiber amplifier
Please contact us
(For custom made)
The pulse energy number nJ can be amplified to 100 μJ or more.
::Regenerative amplifier description
US$ 98,000(Tax excluded)
Picosecond and nanosecond pulses can be pulse-compressed into femtosecond pulses.
::Explanation of pulse compressor
US$ 4,600(Tax excluded)
Bandwidths of 10 nm can be extended to hundreds of nm or more.
::Explanation of Super Continuum
Please contact us
Very useful modeling software for fiber device design and optimization.
Please contact us
You can give the pulse a small negative variance.
Please contact us
You can give the pulse a large positive or negative dispersion.
Please contact us
The expendables
If the alignment work is performed when the LD power is strong, the Q switch operation is likely to occur and may be damaged.
–
Please contact us
Other services
You can leave the assembly to the point where the mode-locked fiber laser oscillates.
–
US$ 3,000(Tax excluded)
Transportation expenses will be charged separately.
Development story
It was developed by new students from university laboratories and companies because they thought it would be interesting to have a toy that could learn “fiber laser”, “mode synchronization”, and “femtosecond laser” as if they were plastic models.「Analog electronic circuit production kit that makes learning the basics of electricity fun: Gakken Electronic Block」It is a “laser oscillator manufacturing kit” that you can learn the basics of laser in a fun way. We hope that this experimental kit can contribute to “development of ultra-short pulse laser field”, “development of laser industry” and “development of optical industry”.
History
- 2004 Since fiber lasers were mainly in the 1.5um wavelength band, which is an optical communication band, there were few commercially available optical elements for fiber lasers in the 1.0um wavelength band. It was very difficult to prepare Yb-doped fibers, isolators, and fiber collimators, and I was groping for what to use and what to use.Although it was announced at the American academic conference,but not yet announced at the Japanese academic conference, it took about one year to succeed in mode-locked fiber laser oscillation in the wavelength 1.0 um band. I remember being very happy when mode synchronization was first applied.
- 2011 In collaboration with a trading company, we succeeded in developing the “mode-locked Yb fiber laser experiment kit”. At that time, mode-locked Yb fiber products were very expensive, at the 10 million yen class. In order to expand the market, we set the price of the experimental kit to approx. 1 million yen.
- End of March 2014 We delivered not only to RIKEN, Japan Atomic Energy Agency, and other independent administrative agencies, to universities such as the University of Tokyo and Kyoto University, but also to large number of customers from large companies to venture companies. As far as we know, the purchaser’s mode synchronization achievement rate is 100%.
- End of January 2016 So far, 30 femtosecond lasers (mode-locked fiber laser kits) have been introduced to the market, recently one per month. We have a wide variety of applications, and we feel that we are contributing to the expansion of the femtosecond laser market.
Product sales record
- University of Tokyo
- Kyoto University
- Osaka University
- Nagoya University
- Chiba University
- Hokkaido University
- Kanagawa University
- Institute of Molecular Science
- Saitama Medical University
- Gakushuin University
- High Energy Accelerator Research Organization
- Nagoya Institute of Technology
- Japan Atomic Energy Agency
- University of Yamanashi
- Waseda University
- RIKEN
- Ritsumeikan University
- Tohoku University
- The University of Electro-Communications
- The Graduate School for the Creation of New Photonics Industries
- Keio University
- Other domestic and foreign private companies
What is mode synchronization
Yb-doped silica glass optical fiber
The absorption cross section and stimulated emission cross section of Yb fiber are shown.
Details on the following web page.
Spectral characteristics of Yb fiber。
Soliton pulse mode synchronization / Stretch pulse mode synchronization
Soliton pulse mode locking occurs when the total dispersion in the resonator is negative (abnormal dispersion).Optical soliton effect(pulse spread due to dispersion effect and pulse compression due to self-phase modulation (SPM) balance each other) creates a waveform of the sech2 function.Therefore, the pulse quality is good, but the pulse energy is limited.
Stretch pulse mode locking occurs when the total dispersion in the resonator is positive (normal dispersion). The pulse energy is not limited and high output is possible, but the feature is that the pedestal component is likely to remain after pulse compression.