Space division multiplexing apparatus including multi-core fiber and selfhomodyne detection method

The invention claimed is: 1. A space-division multiplexing apparatus ( 12 ) including a multi-core fiber ( 11 ) having multiple cores, comprising: a multiplexing unit ( 21 ) which multiplexes a signal for communication and a pilot tone for self-homodyne detection, the signal being generated by a light source ( 22 ); a pilot tone guiding unit ( 14 ) which guides the pilot tone to a first core ( 13 ) for self-homodyne detection which is one of the multiple cores in the multi-core fiber ( 11 ), the first core ( 13 ) being a center core of the multiple cores; a signal guiding unit ( 17 ) which guides the signal for communication among the signals multiplexed by the multiplexing unit ( 21 ) to second cores ( 16 ) for communication, the second cores being around center core; and a self-homodyne detection unit ( 15 ) which detects the pilot tone output from the core ( 13 ) for self-homodyne detection and performs the self-homodyne detection, wherein a diameter φ s of the first core ( 13 ) for self-homodyne detection and a diameter φ c of the second core ( 16 ) for communication have a relationship selected from the group consisting of 1.1≦φ s /φ c ≦1.3 and 1.2≦φ s /φ c ≦3. 2. The space-division multiplexing apparatus according to claim 1 , further comprising an optical comb generator for generating any one or both of the pilot tone and the signal for communication propagating through the second cores ( 16 ) for communication. 3. The space-division multiplexing apparatus according to claim 1 , further comprising an optical path length adjustment unit for adjusting an optical path length difference of each core in the multi-core fiber ( 11 ) having the multiple cores. 4. A self-homodyne detection method using a space-division multiplexing apparatus ( 12 ) including a multi-core fiber ( 11 ) having multiple cores, comprising: guiding a pilot tone for self-homodyne detection to a first core ( 13 ) for self-homodyne detection which is any one of the multiple cores; guiding a data signal to a second core ( 16 ) for communication which is one of the multiple cores; and detecting the pilot tone output from the first core ( 13 ) for self-homodyne detection; detecting the data signal output from the second core ( 16 ) for communication; and performing the self-homodyne detection by demodulating the data signal for communication by using the pilot tone as a reference signal; wherein a diameter φ s of the first core ( 13 ) for self-homodyne detection and a diameter φ c the second core 16 for communication have a relationship selected from the group consisting of 1.1≦φ s /φ c ≦1.3 and 1.2≦φ s /φ c ≦3. 5. The self-homodyne detection method according to claim 4 , wherein the guiding a pilot tone for self-homodyne detection to a first core ( 13 ) for self-homodyne detection is guiding the pilot tone to center core of the multi-core fibre ( 11 ).