Octave-spanning supercontinuum generation at telecommunications wavelengths in a precisely dispersion- and length-controlled silicon-wire waveguide with a double taper structure

Atsushi lshizawa; Takahiro Goto; Rai Kou; Tai Tsuchizawa; Nobuyuki Matsuda; Kenichi Hitachi; Tadashi Nishikawa; Koji Yamada; Tetsuomi Sogawa; Hideki Gotoh

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Octave-spanning supercontinuum generation at telecommunications wavelengths in a precisely dispersion- and length-controlled silicon-wire waveguide with a double taper structure

机译：在具有双锥度结构的精确色散和长度可控的硅线波导中，在电信波长下产生八度跨度的超连续谱

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We demonstrate on-chip octave-spanning supercontinuum (SC) generation with a Si-wire waveguide (SWG). We precisely controlled the SWG width so that the group velocity becomes flat over a wide wavelength range. By adjusting the SWG length, we could reduce the optical losses due to two-photon absorption and pulse propagation. In addition, for efficient coupling between the laser pulse and waveguide, we fabricated a two-step inverse taper at both ends of the SWG. Using a 600-nm-wide SWG, we were able to generate a broadband SC spectrum at wavelengths from 1060 to 2200 nm at a -40 dB level with only 50-pJ laser energy from an Er-doped fiber laser oscillator. We found that we can generate an on-chip broadband SC spectrum with an SWG with a length even as small as 1.7 mm.

机译：我们演示了具有Si线波导（SWG）的片上倍频程超连续谱（SC）生成。我们精确地控制了SWG宽度，以使群速度在很宽的波长范围内变得平坦。通过调整SWG长度，我们可以减少由于双光子吸收和脉冲传播而引起的光损耗。另外，为了有效地耦合激光脉冲和波导，我们在SWG的两端制造了两步反锥度。使用600 nm宽的SWG，我们能够用掺Er光纤激光振荡器产生的仅50 pJ激光能量，以-40 dB的水平产生1060至2200 nm波长的宽带SC光谱。我们发现，我们可以使用长度仅为1.7 mm的SWG生成片上宽带SC频谱。

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来源
《Applied Physics Letters》 |2017年第2期|021105.1-021105.5|共5页
作者
Atsushi lshizawa; Takahiro Goto; Rai Kou; Tai Tsuchizawa; Nobuyuki Matsuda; Kenichi Hitachi; Tadashi Nishikawa; Koji Yamada; Tetsuomi Sogawa; Hideki Gotoh;
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作者单位

NTT Basic Research Laboratories, NTT Corporation, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan;

Department of Electronic Engineering, Tokyo Denki University, 5 Senjyu-Asahi-cho, Adachi-ku, Tokyo 120-8551, Japan,Department of Electronic Engineering, Tokyo Denki University, 5 Senjyu-Asahi-cho, Adachi-ku, Tokyo 120-8551, Japan;

NTT Nanophotonics Center, NTT Corporation, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan,NTT Device Technology Laboratories, NTT Corporation, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan;

NTT Nanophotonics Center, NTT Corporation, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan,NTT Device Technology Laboratories, NTT Corporation, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan;

NTT Basic Research Laboratories, NTT Corporation, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan,NTT Nanophotonics Center, NTT Corporation, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan;

NTT Basic Research Laboratories, NTT Corporation, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan;

Department of Electronic Engineering, Tokyo Denki University, 5 Senjyu-Asahi-cho, Adachi-ku, Tokyo 120-8551, Japan;

NTT Nanophotonics Center, NTT Corporation, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan,NTT Device Technology Laboratories, NTT Corporation, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan;

NTT Basic Research Laboratories, NTT Corporation, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan;

NTT Basic Research Laboratories, NTT Corporation, 3-1 Morinosato Wakamiya, Atsugi-shi, Kanagawa 243-0198, Japan;

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Octave-spanning supercontinuum generation at telecommunications wavelengths in a precisely dispersion- and length-controlled silicon-wire waveguide with a double taper structure

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