Transmission line and transmission method

The invention claimed is: 1. A transmission line, comprising: a multi-mode waveguide; one input metal wire configured to receive a multiplexed input signal that includes a plurality of first signals of a plurality of frequency bands; a plurality of output metal wires, wherein each of the plurality of output metal wires is configured to output a respective signal of the plurality of first signals; and at least one of: a first matching structure between the input metal wire and the multi-mode waveguide, or at least one second matching structure between the multi-mode waveguide and at least one output metal wire of the plurality of output metal wires, wherein the first matching structure is configured to match impedance between the input metal wire and multi-mode waveguide, and wherein the at least one second matching structure is configured to match impedance between the multi-mode wave guide and the at least one output metal wire. 2. The transmission line according to claim 1 , wherein each of the plurality of first signals of the multiplexed input signal is a millimeter wave band signal. 3. The transmission line according to claim 1 , wherein the multi-mode waveguide, the input metal wire, the plurality of output metal wires, and the at least one of the first matching structure or the at least one second matching structure are aligned on a plane. 4. The transmission line according to claim 1 , further comprising a metal in contact with the multi-mode waveguide. 5. The transmission line according to claim 1 , wherein the multi-mode waveguide and at least one of the first matching structure or the at least one second matching structure are stacked on each other. 6. A transmission line, comprising: a multi-mode waveguide; and a metal wire configured to transmit a signal, wherein the metal wire includes: a plurality of input metal wires configured to receive a plurality of input signals; and a plurality of output metal wires, each configured to output respective input signal of the plurality of input signals, wherein the multi-mode waveguide is configured to: directly receive the plurality of input signals from the plurality of input metal wires; and directly transmit the plurality of input signals to the plurality of output metal wires, wherein a first direction of signal propagation in the multi-mode waveguide is parallel to a second direction of signal propagation in the metal wire. 7. A transmission method, comprising: inputting a multiplexed input signal from an input metal wire directly to a multi-mode waveguide, wherein the multiplexed input signal is obtained by multiplexing a plurality of signals of a plurality of frequency bands; and outputting each of the plurality of signals of the plurality of frequency bands from the multi-mode waveguide directly to a respective output metal wire of a plurality of output metal wires, wherein a first direction of signal propagation in the multi-mode waveguide is parallel to a second direction of signal propagation in the input metal wire. 8. A transmission line, comprising: a multi-mode waveguide; and a metal wire configured to transmit a signal, wherein the metal wire includes: a plurality of input metal wires to each of which a plurality of input signals of a plurality of frequency bands are inputted, and one output metal wire configured to output a multiplexed output signal which includes the plurality of input signals of the plurality of frequency bands, wherein the multi-mode waveguide is configured to: receive the plurality of input signals from the plurality of input metal wires directly; and transmit the multiplexed output signal to the one output metal wire directly. 9. A transmission method, comprising: multiplexing a plurality of input signals of a plurality of frequency bands to obtain a multiplexed input signal; inputting the multiplexed input signal from a metal wire to a multi-mode waveguide via a first matching structure to match impedance between the metal wire and the multi-mode waveguide; and outputting, a plurality of impedance matched signals that correspond to respective ones of the plurality of input signals of the plurality of frequency bands, from the multi-mode waveguide to a plurality of output metal wires via a plurality of second matching structures, wherein a first direction of signal propagation in the multi-mode waveguide is parallel to a second direction of signal propagation in the metal wire. 10. A transmission line, comprising: a multi-mode waveguide; and a metal wire configured to transmit a signal, wherein the metal wire includes: one input metal wire to which a multiplexed input signal is inputted, wherein the multiplexed input signal includes a plurality of signals of a plurality of frequency bands; and a plurality of output metal wires, wherein each of the plurality of output metal wires are configured to output a respective signal of the plurality of signals of the plurality of frequency bands, wherein the multi-mode waveguide and the metal wire are connected directly to each other. 11. The transmission line according to claim 10 , wherein each of the plurality of signals of the multiplexed input electrical signal is a millimeter wave band signal. 12. The transmission line according to claim 10 , wherein the multi-mode waveguide and the metal wire are aligned on a plane. 13. The transmission line according to claim 10 , further comprising a metal in contact with the multi-mode waveguide.