Waveguide type optical switch

The invention claimed is: 1. A waveguide type optical switch having a form of a matrix optical switch of M inputs and N outputs formed on a single substrate, where M and N are integers different from each other, M and N each having a value greater than or equal to three, the matrix optical switch comprising: M optical switches each having one input and N outputs; and N optical combining devices each having M inputs and one output, wherein the a-th input of the matrix optical switch is the input of the a-th optical switch, where a is an integer from 1 to M, the b-th output of the matrix optical switch is the output of the b-th optical combining device, where b is an integer from 1 to N, each of the optical switches consists of N−1 unit optical switch elements each having one input and two outputs, and each of the optical combining devices consists of M−1 unit optical combining elements each having two inputs and one output, wherein for each optical switch, the input of the first unit optical switch element forms the input of the optical switch, one of the outputs of the i-th unit optical switch element is connected to the input of the (i+1)-th unit optical switch element, where i is an integer from 1 to N−2, the other of the outputs of the i-th unit optical switch element forms the i-th output of the optical switch, and the two outputs of the (N−1)-th unit optical switch element form the (N−1)-th output and the N-th output of the optical switch, wherein for each optical combining device, the two inputs of the first unit optical combining element form the first and second inputs of the optical combining device, one of the inputs of the j-th unit optical combining element is connected to the output of the (j−1)-th unit optical combining element, where j is an integer from 2 to M−1, the other of the inputs of the j-th unit optical combining element forms the (j+1)-th input of the optical combining device, and the output of the (M−1)-th unit optical combining element forms the output of the optical combining device, wherein in the matrix optical switch, the p-th optical switch and the q-th optical combining device are connected between any output in the p-th optical switch and any input in the q-th optical combining device, where p is an integer from 1 to M and q is an integer from 1 to N, wherein in a case where any output in the p-th optical switch is the k-th output in the connection, any input in the q-th optical combining device is the k′-th input, k being an integer from 1 to N and k′ being an integer from 1 to M, and in a case where k is from 2 to N−1 in the connection, a waveguide intersection is not included in the connection between the output of the unit optical switch element forming the k-th output in the p-th optical switch and the input of the unit optical combining element forming the k′-th input in the q-th optical combining device. 2. A waveguide type optical switch according to claim 1 , wherein for each optical combining device, each unit optical combining element includes two input terminals, and a combining optical power ratio between the two input terminals of the first unit optical combining element is 1:1, and a combining optical power ratio between an input terminal connected to the output of the optical switch in the j-th unit optical combining element and an input terminal connected to the other unit optical combining element is 1:j where j is an integer from 2 to M−1. 3. A waveguide type optical switch having a form of a matrix optical switch of N inputs and M outputs formed on a single substrate, where M and N are integers different from each other, M and N each having a value greater than or equal to three, the matrix optical switch comprising: N optical branching devices each having one input and M outputs; and M optical switches each having N inputs and one output, wherein the a-th input of the matrix optical switch consists of the input of the a-th optical branching device, where a is an integer from 1 to N, the b-th output of the matrix optical switch consists of the output of the b-th optical switch, where b is an integer from 1 to M, each of the optical branching devices consists of M−1 unit optical branching elements each having one input and two outputs, and each of the optical switches consists of N−1 unit optical switch elements each having two inputs and one output, wherein for each optical branching device, the input of the first unit optical branching element forms the input of the optical branching device, one of the outputs of the i-th unit optical branching element is connected to the input of the (i+1)-th unit optical branching element, where i is an integer from 1 to M−2, the other of the outputs of the i-th unit optical branching element forms the i-th output of the optical branching device, and two outputs of the (M−1)-th unit optical branching element form the (M−1)-th output and the M-th output of the optical branching device, wherein for each optical switch, two inputs of the first unit optical switch element form the first and second inputs of the optical switch, one of the inputs of the j-th unit optical switch element is connected to the output of the (j−1)-th unit optical switch element, where i is an integer from 2 to N−1, the other of the inputs of the j-th unit optical switch element forms the (j+1)-th input of the optical switch, and the output of the (N−1)-th unit optical switch element forms the output of the optical switch, wherein in the matrix optical switch, the p-th optical branching device and the q-th optical switch are connected between any output in the p-th optical branching device and any input in the q-th optical switch, where p is an integer from 1 to N and q is an integer from 1 to M, wherein in a case where any output in the p-th optical branching device is the k-th output in the connection, where k is an integer from 1 to M, any input in the q-th optical switch is the k′-th input, where k′ is an integer from 1 to M, and in a case where k is from 2 to M−1 in the connection, a waveguide intersection is not included in the connection between the output in the unit optical branching element forming the k-th output in the p-th optical branching device and the input in the unit optical switch element forming the k′-th input in the q-th optical switch. 4. A waveguide type optical switch according to claim 3 , wherein for each optical branching device, each unit optical combining element includes two input terminals, and a branching optical power ratio between the two output terminals of the (M−1)-th unit optical branching element in the optical branching device is 1:1, and a branching optical power ratio between an output terminal connected to the input in the optical switch of the i-th unit optical branching element and an output terminal connected to the other unit optical branching element is 1:(M−i), where i is an integer from 1 to M−2.