1.0µm band supercontinuum generation using photonic crystal fiber and its application as multi-wavelength pulse source
スポンサーリンク
概要
- 論文の詳細を見る
A 1.0µm-band supercontinuum (SC) with a flat spectral bandwidth of 6.0nm is generated using a seed pulse source consisting of a CW light source, a phase modulator and a dispersion medium. And we use a photonic crystal fiber (PCF) as the nonlinear medium. PCF can be designed to realize high nonlinearity and low dispersion in the 1.0µm band. Moreover, we showed that we could fine-tune the optical spectrum of the SC by changing the modulation index Δθ of the phase modulator in the seed pulse source. We also describe the application of the supercontinuum as a multi-wavelength pulse source in the 1.0µm band.
著者
-
Kurokawa Kenji
Ntt Access Network Service Systems Laboratories Ntt Corporation
-
YAMAMOTO Takashi
NTT Access Network Systems Laboratories
-
Tomita Shigeru
Ntt Access Network Service Systems Laboratories Ntt Corporation
-
Mori Takayoshi
NTT Access Network Service Systems Laboratories, NTT Corporation
-
Yamamoto Takashi
NTT Access Network Service Systems Laboratories, NTT Corporation
関連論文
- Fiber Fuse Propagation and Its Suppression in Hole-Assisted Fibers
- A Wavelength Tunable Q-Switched Erbium-Doped Fiber Laser with Fiber Bragg Grating Mirrors
- 1.0µm band supercontinuum generation using photonic crystal fiber and its application as multi-wavelength pulse source
- Design and Performance of Low-Loss Submarine Optical Fiber Cable for Long-Distance Submarine Repeaterless Transmission System Employing Remotely Pumped EDF and Distributed Raman Amplification(Optical Fiber for Communications)
- Polarization Dependence of Soliton Interactions in Femtosecond Soliton Transmission
- 10Gb/s WDM Transmission at 1064 and 1550nm over 24km Photonic Crystal Fiber with Negative Power Penalties(Optical Fiber for Communications)
- Novel Optical Loss Design Method for WDM Systems(Optical Fiber for Communications)
- SB-12-1 Design considerations for 1.38 μm zero-dispersion fiber for access and metropolitan networks
- Pre-Connectorized High Density Optical Fiber Cable Technology (Special Issue on Optical Fibers and Their Applications)
- Design and Performance of Field Installable Optical Connector Realizing Physical Contact Connection without Fiber Endface Polishing
- Fiber Fuse Propagation and Its Suppression in Hole-Assisted Fibers
- WDM transmission in 1.0.MU.m band over PCF using supercontinuum source
- 1.0.MU.m band supercontinuum light as WDM pulse source generated by using photonic crystal fibers