Element used for an oscillation or detection of a terahertz wave

The invention claimed is: 1. An element used for an oscillation or a detection of a terahertz wave, the element comprising: a resonance unit including a first conductor, a second conductor, a dielectric arranged between the first conductor and the second conductor, and a first negative resistance element and a second negative resistance element mutually connected in parallel between the first conductor and the second conductor; a bias circuit that supplies a bias voltage to each of the first negative resistance element and the second negative resistance element; and a line that connects the bias circuit to the resonance unit, wherein the following Expression (1) is satisfied: Re( Y 12 )>½[ G −Re( Y 11 )]  (1) where Re(Y 12 ) denotes a real part of a mutual admittance between the first negative resistance element and the second negative resistance element; G denotes a gain of the first negative resistance element or the second negative resistance element; and Re(Y 11 ) denotes a real part of an admittance of a configuration including the bias circuit, the line, and the resonance unit as viewed from the first negative resistance element, the element being characterized in that the element is configured in a manner that a mutual injection locking in a positive phase between the first negative resistance element and the second negative resistance element is unstable, and a mutual injection locking in a reversed phase between the first negative resistance element and the second negative resistance element becomes stable. 2. The element according to claim 1 , wherein the second negative resistance element is arranged at an axisymmetric position with respect to a position where the first negative resistance element is arranged while a straight line passing through a gravity center of the first conductor and also being perpendicular to a resonance direction of an electromagnetic wave in the resonance unit and a lamination direction of the first conductor and the second conductor is set as an axis in the first conductor. 3. The element according to claim 1 , wherein the gain of the first negative resistance element is equal to the gain of the second negative resistance element. 4. The element according claim 1 , wherein the line is connected to the resonance unit at the position corresponding to a node of an electric field of the terahertz wave standing in the resonance unit of the element. 5. The element according to claim 1 , wherein the resonance unit is a patch antenna. 6. The element according to claim 1 , wherein a frequency band of an electromagnetic wave oscillated by the first negative resistance element is overlapped with a frequency band of an electromagnetic wave oscillated by the second negative resistance element. 7. The element according to claim 1 , wherein a capacitance having a metal insulator metal (MIM) capacitance structure is provided between the resonance unit and the bias circuit. 8. An element comprising: a resonance unit including a first antenna unit including a first negative resistance element, a second antenna unit including a second negative resistance element, and a coupling part where a strong coupling between the first antenna unit and the second antenna unit is performed, in which a terahertz wave resonates; a bias circuit that supplies a bias voltage to the first negative resistance element and the second negative resistance element; and a line that connects the bias circuit to the antenna, wherein the following Expression (1) is satisfied Re( Y 12 )>½[ G −Re( Y 11 )]  (1) where Re(Y 12 ) denotes a real part of a mutual admittance between the first negative resistance element and the second negative resistance element; where G denotes a gain of the first negative resistance element or the second negative resistance element; and where Re(Y 11 ) denotes a real part of an admittance of a configuration including the bias circuit, the line, and the resonance unit as viewed from the first negative resistance element. 9. The element according to claim 8 , wherein the first antenna unit includes a first conductor layer, a conductor, a dielectric arranged between the first conductor layer and the conductor, and the first negative resistance element electrically connected between the first conductor layer and the conductor, and the second antenna unit includes a second conductor layer, the conductor, a dielectric arranged between the second conductor layer and the conductor, and the second negative resistance element electrically connected between the second conductor layer and the conductor. 10. The element according to claim 9 , wherein the conductor includes a conductor included in the first antenna unit, a conductor included in the second antenna unit, and a conductor included in the coupling part. 11. The element according to claim 9 , wherein the coupling part includes a connection part that connects the first conductor layer to the second conductor layer, the conductor, and the dielectric arranged between the connection part and the conductor. 12. The element according to claim 11 , wherein the first conductor layer, the second conductor layer, and the connection part are formed of a single conductor. 13. The element according to claim 8 , wherein the coupling part is arranged at a position corresponding to a node of an electric field of the terahertz wave standing in the resonance unit. 14. The element according to claim 8 , wherein the coupling part performs a DC coupling between the first antenna unit and the second antenna unit. 15. The element according to claim 8 , wherein the first antenna unit and the second antenna unit are mirror symmetrical while the coupling part is set as an axis. 16. The element according to claim 8 , wherein the gain of the first negative resistance element is equal to the gain of the second negative resistance element. 17. The element according claim 8 , wherein the line is connected to the resonance unit at the position corresponding to a node of an electric field of the terahertz wave standing in the resonance unit of the element. 18. The element according to claim 8 , wherein the resonance unit is a patch antenna. 19. The element according to claim 8 , wherein a frequency band of an electromagnetic wave oscillated by the first negative resistance element is overlapped with a frequency band of an electromagnetic wave oscillated by the second negative resistance element. 20. The element according to claim 8 , wherein a capacitance having a metal insulator metal (MIM) capacitance structure is provided between the resonance unit and the bias circuit. 21. An element comprising: a resonance unit including a first antenna unit including a first negative resistance element and a first conductor layer, a second antenna unit including a second negative resistance element and a second conductor layer, and a coupling part where a strong coupling between the first antenna unit and the second antenna unit is performed, in which a terahertz wave resonates; a bias circuit that supplies a bias voltage to the first negative resistance element and the second negative resistance element; and a line that includes an electrode and a second dielectric and connects the bias circuit to the resonance unit, the second dielectric being arranged between the electrode and the first conductor layer; wherein the first negative resistance element and the second negative resistance element are mirror symmetrical with respect to an