FORC Photonicsについて
FORC Photonicsは、研究者を中心に2005年に設立された光ファイバー関連製品のメーカーで、海外へは主に欧州・アジア向けに販売展経由、製品を出荷しています。希土類元素を添加した各種の特殊ファイバーを製造・販売しています。
当社はFORC Photonicsの代理店です。
光ファイバーラインナップ
Doped Fibers
| 製品画像 | 説明 | |
|---|---|---|
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Germanium (Highly Nonlinear Fibers) |
Suitable for Raman lasers, amplificators… |
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Germanium (Highly Nonlinear Fibers + Dispersion Shifted) |
Zero-dispersion around 1550nm |
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Phosphorus | More efficient in Raman shifting than Germanium-doped |
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Phosphorus (+ Polarization-Maintaining) |
With Panda core |
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Ytterbium doped fiber YDF-SM-6/125 | designed for operation without power degradation in core-pumped laser and amplifier schemes. |
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Ytterbium doped fiber YDF-DC-6/125 | specially designed for highly efficient high-reliability CW lasers operating in the 1.03-1.08 µm spectral range |
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Ytterbium doped fiber YDF-DC-10/125 | designed for operation without any power degradation in a high-peak-power cladding pumped amplifiers. |
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LMA Ytterbium doped tapered fiber YDF-DC-40/400-PM-TPR-2.5-A | designed for operation without any power degradation in extremely high-peak-power cladding-pumped amplifiers. |
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LMA Ytterbium doped tapered fiber pump combiner (prototype) YDF-DC-40/400-PM-TPR-PC | easy-to-use intergrated unit which consist of YDF-DC-40/400-PM-TPR tapered fiber and monolithic system for injecting pump in the tapered fiber and couple amplified signal out |
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Erbium doped fiber EDF-4/125-10 | specially designed to achieve the highest efficiency of telecommunication amplifiers. |
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Erbium doped fiber EDF 4/125-25 | designed to minimize the amplifier length without pump-to-signal conversion efficiency degradation. |
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Erbium doped fiber EDF 4/125-50 | designed for amplification of ultra-short pulses, when high efficiency, a short amplifier length and a high negative dispersion (-30..-50 ps/nm/km) are required. |
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Erbium doped fiber EDF-14/125-35 | designed for low-nonlinearity and high pulse energy amplifiers. |
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Thulium-Ytterbium codoped fiber TYDF-DC-10/125 | designed for low-nonlinearity and high pulse energy amplifiers. |
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Thulium doped fiber TDF-SM-10/125 | specially designed for highly efficient core pumping at 1550-1600 nm. |
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Phosphorus doped fiber PDF-5/125 | specially designed for highly efficient Raman lasers and amplifiers operating in the 1.1-1.6 µm spectral range. |
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Phosphorus doped fiber PDF-5/125PM | specially designed for highly efficient Raman lasers and amplifiers operating in the 1.1-1.6 µm spectral range. |
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Bismuth doped fibers BPDF-SM-6/125-1320 | designed for typical application for amplifiers, lasers, superfluorescent fiber sources operating at 1270-1370nm. |
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Bismuth doped fibers BGDF-SM-7/125-1430 | designed for typical application for amplifiers, lasers, superfluorescent fiber sources operating at 1370-1490nm. |
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High non-linear fiber HNLF | designed to maximize fiber nonlinearity and minimize optical loss, which makes such fibers optimal for constructing highly efficient Raman lasers and amplifiers, dispersion compensators and various non-linear devices. |
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High non-linear fiber with shifted dispersion HNLF DS | designed for applications requiring a shift of the zero dispersion wavelength to the 1550 nm spectral region: supercontinuum generation, parametric conversion and etc. |
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High non-linear fiber with shifted dispersion HNLF DS | designed to maximize fiber nonlinearity and minimize optical loss, which makes such fibers optimal for constructing highly efficient Raman lasers and amplifiers, dispersion compensators and various non-linear devices. |
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High non-linear fiber with shifted dispersion HNLF DS | designed for applications requiring a shift of the zero dispersion wavelength to the 1550 nm spectral region: supercontinuum generation, parametric conversion and etc. |
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Photonics crystal fiber HN-PCF | specially designed for supercontinuum generation using most popular pump sources – Ti-Sa femtosecond laser and Yb-doped fiber ps or fs lasers. |
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Germanate glass core fiber GDF-SM-2.2/125-75 | used for variety of nonlinear applications. |
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Germanate glass core fiber GDF-MM-8/125-98 | used for a variety of nonlinear applications. |
| No image / No image | Article SBS-DC-20/125-1550PM | designed to be used in pigtails of output components (isolators, collimators, pump-and-signal combiners and etc) of high-peakpower single-frequency lasers operated near 1550 nm. |
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Aluminum-coated single-mode optical fibers | have all the benefits of optical fibers include increased mechanical strength and greater fatigue resistance compared to non-hermetic and polymer-clad fibers (PCS). |
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Aluminum-coated step index multimode silica fibers CCR 1.06 (Low OH) | have all the benefits of silica-silica fibers. Additional significant improvements include increased mechanical strength and greater fatigue resistance compared to non-hermetic and polymer-clad fibers (PCS). |
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Aluminum-coated step index multimode silica fibers CCR 1.1 (Low OH) | have all the benefits of silica-silica fibers. Additional significant improvements include increased mechanical strength and greater fatigue resistance compared to non-hermetic and polymer-clad fibers (PCS). |
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(リンク切れ)Aluminum-coated step index multimode silica fibers CCR 1.06 (High OH) | have all the benefits of silica-silica fibers. Additional significant improvements include increased mechanical strength and greater fatigue resistance compared to non-hermetic and polymer-clad fibers (PCS). |
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Aluminum-coated step index multimode silica fibers CCR 1.1 (High OH) | have all the benefits of silica-silica fibers. |
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Copper-coated single-mode optical fibers | can be used for both high-temperature and cryogenic applications. |
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Copper-coated gradient index multimode optical fibers | have increased mechanical strength and greater fatigue resistance compared to non-hermetic and polymer-clad fibers (PCS). |
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Copper-coated step index multimode silica fibers (Low OH) | have all the benefits of silica-silica fibers. |
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Copper-coated step index multimode optical fibers (High OH) | covers a spectral range of 250 to 1200 nm, and also remains stable in corrosive chemicals that normally react to silica glass. |
Metal-coated Fibers
Structured Fibers
| 製品画像 | 説明 | |
|---|---|---|
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フォトニック結晶ファイバー (PCF) |
Suitable for supercontinuum generation, dispersion management… |
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High-Birefringence Spun Panda Fibers (HBSPF) |
Suitable for Faraday sensors… |
Large mode area double-clad EDFA
| 製品画像 | 型番 | 説明 |
|---|---|---|
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(1)FOA-EDFA-HP-30-1-L-C (2)FOA-EDFA-HP-30-1 (3)FOA-EDFA-HP-30-1-L |
技術データページ |
製品の販売実績
(2024年 1月更新)
アカデミック
- 東京大学
- 北海道大学
企業
- 光学器械メーカー