Magnetoresistive effect device

What is claimed is: 1. A magnetoresistive effect device comprising: at least one magnetoresistive effect element including a magnetization fixed layer, a magnetization free layer, and a spacer layer arranged between the magnetization fixed layer and the magnetization free layer; a first port through which a high-frequency signal is input; a second port through which a high-frequency signal is output; a signal line; an inductor or a resistance element; and a direct-current input terminal, wherein the first port, the magnetoresistive effect element, and the second port are connected in series in this order via the signal line, wherein the inductor or the resistance element is connected to one of the signal line between the magnetoresistive effect element and the first port and the signal line between the magnetoresistive effect element and the second port and is capable of being connected to ground, wherein the direct-current input terminal is connected to the other of the signal line between the magnetoresistive effect element and the first port and the signal line between the magnetoresistive effect element and the second port, wherein a closed circuit including the magnetoresistive effect element, the signal line, the inductor, the ground and direct-current input terminal or a closed circuit including the magnetoresistive effect element, the signal line, the resistance element, the ground, and direct-current input terminal is capable of being formed, and wherein the magnetoresistive effect element is arranged so that direct current supplied from the direct-current input terminal flows through the magnetoresistive effect element in a direction from the magnetization fixed layer to the magnetization free layer. 2. The magnetoresistive effect device according to claim 1 , further comprising; at least one frequency setting mechanism capable of setting a spin torque resonance frequency of the magnetoresistive effect element. 3. The magnetoresistive effect device according to claim 2 , wherein the frequency setting mechanism is an effective magnetic field setting mechanism capable of setting an effective magnetic field in the magnetization free layer and is capable of varying the spin torque resonance frequency of the magnetoresistive effect element by varying the effective magnetic field. 4. The magnetoresistive effect device according to claim 1 , wherein the at least one magnetoresistive effect element includes a plurality of magnetoresistive effect elements having different spin torque resonance frequencies, and wherein the magnetoresistive effect elements are connected in parallel to each other. 5. The magnetoresistive effect device according to claim 2 , wherein the at least one magnetoresistive effect element includes a plurality of magnetoresistive effect elements, wherein the magnetoresistive effect elements are connected in parallel to each other, and wherein the at least one frequency setting mechanism includes a plurality of frequency setting mechanisms so that the spin torque resonance frequencies of the magnetoresistive effect elements are capable of being individually set. 6. The magnetoresistive effect device according to claim 1 , wherein the at least one magnetoresistive effect element includes a plurality of magnetoresistive effect elements having different spin torque resonance frequencies, and wherein the magnetoresistive effect elements are connected in series to each other. 7. The magnetoresistive effect device according to claim 2 , wherein the at least one magnetoresistive effect element includes a plurality of magnetoresistive effect elements, wherein the magnetoresistive effect elements are connected in series to each other, and wherein the at least one frequency setting mechanism includes a plurality of frequency setting mechanisms so that the spin torque resonance frequencies of the magnetoresistive effect elements are capable of being individually set. 8. The magnetoresistive effect device according to claim 4 , wherein plan view shapes of the magnetoresistive effect elements having different spin torque resonance frequencies are different from each other in aspect ratio. 9. The magnetoresistive effect device according to claim 6 , wherein plan view shapes of the magnetoresistive effect elements having different spin torque resonance frequencies are different from each other in aspect ratio.