Optical transmitting/receiving system and timing extracting method in optical transmitting/receiving system

The invention claimed is: 1. An optical transmitting/receiving system, comprising: an optical transmitter apparatus comprising a light source, an optical modulator, and a periodically Return-to-Zero carver; and an optical receiver apparatus comprising a coherent receiver, an analog-to-digital (AD) converter, a main signal processing unit, and a timing extracting unit; wherein the periodically Return-to-Zero carver forms a dip in an optical signal phase-modulated with a frequency f by the optical modulator by dropping the optical intensity at a symbol transition point to approximate zero per n-symbol interval, n representing natural number more than one; the AD converter outputs a sample obtained by AD converting an electrical signal which is detected and outputted by the coherent receiver; the timing extracting unit extracts a clock component of a frequency f/n from the sample and derives from a phase of the clock component a timing error signal which represents a deviation from optimum sampling timing; and the main signal processing unit adjusts a sampling timing on the basis of the timing error signal. 2. The optical transmitting/receiving system according to claim 1 , wherein the timing extracting unit comprises an intensity detection unit, a frequency filter unit, and a phase detection unit; the intensity detection unit calculates the intensity of the sample; the frequency filter unit extracts a clock component of the frequency f/n from the output of the intensity detection unit; and the phase detection unit detects a phase of the clock component of the frequency f/n extracted by the frequency filter unit. 3. The optical transmitting/receiving system according to claim 1 , wherein the timing extracting unit decides on a symbol transition in which the optical intensity at a symbol transition point is approximately equal to zero by the phase modulation, and performs the process for substituting the intensity of a sample at the symbol transition point with an average of intensities of the previous and next samples of the symbol transition point. 4. The optical transmitting/receiving system according to claim 1 , wherein the timing extracting unit decides on a sample corresponding to the dip formed by the periodically Return-to-Zero carver, and performs the process for substituting the intensity of a sample at a symbol transition point except the dip with an average of intensities of the previous and next samples of the symbol transition point. 5. A timing extracting method in an optical transmitting/receiving system comprising: forming a dip in an optical signal phase-modulated with a frequency f by dropping the optical intensity at a symbol transition point to approximate zero per n-symbol interval, n representing natural number more than one; analog-to-digital (AD) converting an electrical signal obtained by detecting the optical signal in which the dip is formed; extracting a clock component of a frequency f/n from the AD-converted sample; deriving from a phase of the clock component a timing error signal which represents a deviation from optimum sampling timing; and adjusting a sampling timing on the basis of the timing error signal. 6. The timing extracting method in an optical transmitting/receiving system according to claim 5 , wherein, the deriving a timing error signal includes a process for detecting a phase of the clock component. 7. The timing extracting method in an optical transmitting/receiving system according to claim 5 , wherein the deriving a timing error signal includes a process for deciding on a symbol transition in which the optical intensity at a symbol transition point is approximately equal to zero by the phase modulation, and substituting the intensity of a sample at the symbol transition point with an average of intensities of the previous and next samples of the symbol transition point. 8. The timing extracting method in an optical transmitting/receiving system according to claim 5 , wherein the deriving a timing error signal includes a process for deciding on a sample corresponding to the dip, and substituting the intensity of a sample at a symbol transition point except the dip with an average of intensities of the previous and next samples of the symbol transition point.