We experimentally demonstrate that a short length of highly nonlinear holey fiber (HF) can be used for strong L+-band (1610-1640-nm) Raman amplification and ultrafast signal modulation. We use a pure silica HF with an effective area of just 2.85 mum(2) at 1550 nm, which yields an effective nonlinearity similar to15 times higher than in conventional silica dispersion-shifted fiber. Using a 75-m length of this fiber, we obtained internal Raman gains of more than 42 dB and a noise figure of similar to6 dB under a forward single-pump scheme, and the Raman gain coefficient was experimentally estimated to be 7.6 X 10(14) m/W. Also. an 11-dB signal extinction ratio in a Raman-induced all-optical modulation experiment was achieved with the same fiber. (C) 2002 Optical Society of America.
Raman effects in a highly nonlinear holey fiber: amplification and modulation / Yusoff, Z; Lee, Jh; Belardi, W; Monro, Tm; Teh, Pc; Richardson, Dj. - In: OPTICS LETTERS. - ISSN 0146-9592. - 27:6(2002), pp. 424-426. [10.1364/OL.27.000424]
Raman effects in a highly nonlinear holey fiber: amplification and modulation
Belardi W;
2002-01-01
Abstract
We experimentally demonstrate that a short length of highly nonlinear holey fiber (HF) can be used for strong L+-band (1610-1640-nm) Raman amplification and ultrafast signal modulation. We use a pure silica HF with an effective area of just 2.85 mum(2) at 1550 nm, which yields an effective nonlinearity similar to15 times higher than in conventional silica dispersion-shifted fiber. Using a 75-m length of this fiber, we obtained internal Raman gains of more than 42 dB and a noise figure of similar to6 dB under a forward single-pump scheme, and the Raman gain coefficient was experimentally estimated to be 7.6 X 10(14) m/W. Also. an 11-dB signal extinction ratio in a Raman-induced all-optical modulation experiment was achieved with the same fiber. (C) 2002 Optical Society of America.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.