Sensor and information acquisition apparatus using sensor

What is claimed is: 1. A sensor to transmit and detect an electromagnetic wave, the sensor comprising: a substrate; a transmitting unit and a receiving unit integrated on the substrate; and a polarization converting unit, wherein the transmitting unit includes: a generating element configured to generate a first electromagnetic wave, and a first antenna electrically connected with the generating element and configured to emit the first electromagnetic wave, wherein the first electromagnetic wave emitted by the first antenna has a first polarization direction, wherein the polarization converting unit is configured to convert the first electromagnetic wave into a third electromagnetic wave having a third polarization direction for reflection on a subject, and convert the reflected third electromagnetic wave into a second electromagnetic wave having a second polarization direction, wherein the receiving unit includes: a second antenna configured to receive the second electromagnetic wave having a second polarization direction, and a detecting device electrically connected with the second antenna and configured to detect the second electromagnetic wave received by the second antenna, wherein, to reduce a change of a characteristic of the generating element by reflected electromagnetic waves entering into the transmitting unit, the polarization converting unit converts a polarization state of the first electromagnetic wave such that combining a reflected electromagnetic wave, having a polarization state that differs from the polarization state of the reflected first electromagnetic wave, with the first antenna is more difficult than combining the reflected first electromagnetic wave with the first antenna. 2. The sensor according to claim 1 , wherein the second antenna is selectively combined with the second electromagnetic wave having the second polarization direction. 3. The sensor according to claim 1 , wherein the polarization converting unit includes a first converting unit configured to convert the first electromagnetic wave into the third electromagnetic wave having the third polarization direction; and include a second converting unit configured to convert the reflected third electromagnetic wave into the second electromagnetic wave having the second polarization direction. 4. The sensor according to claim 3 , wherein the first converting unit is disposed on a propagation path between transmission of an electromagnetic wave from the transmitting unit and arrival at the subject, and wherein the second converting unit is disposed on a propagation path after the third electromagnetic wave reflects on the subject until an electromagnetic wave enters the receiving unit. 5. The sensor according to claim 1 , wherein the polarization converting unit is disposed on a propagation path between transmission of an electromagnetic wave from the transmitting unit and arrival at the subject, or on a propagation path between reflection of an electromagnetic wave on the subject and the reflected electromagnetic wave entering the receiving unit. 6. The sensor according to claim 1 , wherein each first polarization direction and the second polarization direction is linear polarization, and the first polarization direction and the second polarization direction cross each other. 7. The sensor according to claim 6 , wherein the first polarization direction and the second polarization direction perpendicularly cross each other. 8. The sensor according to claim 1 , wherein the polarization converting unit includes a quarter wavelength plate that is disposed in a manner such that a crystal axis thereof rotates with respect to an optical axis of the first electromagnetic wave having the first polarization direction and an optical axis of the second electromagnetic wave having the second polarization direction. 9. The sensor according to claim 8 , wherein the quarter wavelength plate is disposed with an angle between a fast axis/a slow axis and the first polarization direction is 45°. 10. The sensor according to claim 1 , wherein the receiving unit is a plurality of receiving units, wherein a distance between adjoining receiving units of the plurality of receiving units or a distance between adjoining transmitting unit and receiving unit is equal to or shorter than twice a wavelength of each electromagnetic wave. 11. The sensor according to claim 1 , wherein the polarization converting unit is integrated on the transmitting unit and the receiving unit. 12. The sensor according to claim 1 , wherein the first antenna includes a first conductor, a second conductor, and a first dielectric material is disposed between the first conductor and the second conductor, wherein the second antenna includes a third conductor, a fourth conductor, and a second dielectric material is disposed between the third conductor and the fourth conductor, wherein the generating element is disposed between the first conductor and the second conductor, and at a position shifted from a centroid of the first conductor, wherein the detecting device is disposed between the third conductor and the fourth conductor, and at a position shifted from a centroid of the third conductor, and wherein a line connecting the generating element and the centroid of the first conductor and a line connecting the detecting device and the centroid of the third conductor cross each other. 13. The sensor according to claim 1 , further comprising a conductor, wherein each of the first antenna and the second antenna is a slot antenna including an opening provided in the conductor, and wherein a longitudinal direction of the opening of the first antenna and a longitudinal direction of the opening of the second antenna cross each other. 14. The sensor according to claim 1 , wherein the generating element includes a negative resistance device, wherein the detecting device includes a rectifier, wherein the rectifier is a Schottky barrier diode, wherein each of the first antenna and the second antenna is a resonator, and wherein the transmitting unit and the receiving unit are disposed side by side on a surface of the substrate. 15. An information acquisition apparatus comprising: the sensor according to claim 1 ; and an information acquisition unit configured to acquire information of the subject using a detection result of the detecting device. 16. The sensor according to claim 1 , wherein an electromagnetic wave generated by the generating element includes a terahertz wave that has a frequency that is equal to or higher than 30 GHz and equal to or lower than 30 THz. 17. The sensor according to claim 1 , wherein a distance between the transmitting unit and the receiving unit adjoining each other is equal to or shorter than twice a wavelength of an electromagnetic wave generated by the generating element. 18. The sensor according to claim 1 , wherein a polarization state of the first polarization direction and a polarization state of the second polarization direction differ from each other. 19. The sensor according to claim 18 , wherein, to reduce a chance of change in a characteristic of the generating element in a case where the first antenna is irradiated with reflected electromagnetic waves, the conversion of electromagnetic waves by the polarization converting unit is such that a probability that the first antenna is combined with a reflected second electromagnetic wave is reduced. 20. The sensor according to claim 19 , wherein, to reduce a chance of change in