Antenna and antenna module including the antenna

What is claimed is: 1. An antenna comprising: feed pads; a radiating portion disposed on one side of the feed pads and spaced apart from the feed pads, the radiating portion being constituted by a single conductor plate; a ground part disposed on an opposite side of the feed pads from the radiating portion; and a meta ground part disposed between the feed pads and the ground part, wherein the meta ground part is not electrically connected to any of the feed pads and the ground part, and wherein the meta ground part is disposed closer to the feed pads than the ground part. 2. The antenna of claim 1 , wherein the feed pads are disposed so that all portions of the feed pads face the radiating portion. 3. The antenna of claim 2 , wherein the feed pads comprise a first feed pad and a second feed pad disposed in a line and spaced apart from each other. 4. The antenna of claim 3 , further comprising: a first via having a first end coupled to the first feed pad; and a second via having a first end coupled to the second feed pad. 5. The antenna of claim 4 , further comprising a first feed pattern and a second feed pattern disposed on an opposite side of the ground part from the first feed pad and the second feed pad and spaced apart from the ground part; wherein the first via and the second via penetrate through the ground part; a second end of the first via is connected to the first feed pattern; and a second end of the second via is connected to the second feed pattern. 6. The antenna of claim 2 , wherein each of the feed pads has a rectangular shape. 7. The antenna of claim 6 , wherein the radiating portion has a rectangular shape; a length of each of the feed pads is 40% or less of a length of the radiating portion; and a width of each of the feed pads is 30% or less of a width of the radiating portion. 8. The antenna of claim 2 , wherein a radiating frequency of the antenna is determined by a combination of a length of one of the feed pads and a length of the radiating portion; and an impedance of the antenna is determined by either one or both of a position of the one feed pad and an area of the one feed pad. 9. The antenna of claim 2 , wherein the feed pads comprise four feed pads disposed in four directions relative to a central point between the four feed pads to enable the antenna to receive a signal having a dual polarization. 10. The antenna of claim 1 , wherein the meta ground part comprises eight conductive pads disposed in a quadrangular ring shape. 11. The antenna of claim 1 , further comprising a dummy pattern; wherein the feed pads and the dummy pattern are disposed on a same plane. 12. The antenna of claim 11 , wherein the feed pads comprise four feed pads disposed in four directions relative to a central point between the four feed pads; and the dummy pattern comprises four conductive pads disposed so that each of the four conductive pads is disposed between a different pair of two feed pads of the four feed pads. 13. An antenna module comprising: the antenna of claim 1 ; and a signal processing element electrically connected to the feed pads and configured to transmit and receive a signal via the antenna. 14. The antenna module of claim 13 , further comprising an additional antenna; wherein the antenna of claim 1 and the additional antenna are configured to operate as an array antenna. 15. The antenna module of claim 13 , wherein the antenna of claim 1 is an antenna for Wi-Fi operating at a frequency of 60 GHz. 16. The antenna of claim 1 , wherein each of the feed pads has a polygonal shape. 17. An antenna comprising: feed pads; a radiating portion disposed on one side of the feed pads and spaced apart from the feed pads, the radiating portion being constituted by a single conductor plate; a ground part disposed on an opposite side of the feed pads from the radiating portion; and a dummy pattern disposed between the ground part and the radiating portion, wherein the dummy pattern and the radiating portion overlap each other when viewed in a direction normal to the radiating portion, wherein the dummy pattern and the feed pads do not overlap each other when viewed in the direction normal to the radiating portion, and wherein a portion of the dummy pattern is disposed outside of a periphery of the radiating portion. 18. The antenna of claim 17 , wherein the dummy pattern is disposed so that a portion of the dummy pattern faces the radiating portion. 19. The antenna of claim 17 , wherein the feed pads and the dummy pattern are disposed on a same plane. 20. The antenna of claim 19 , further comprising a meta ground part disposed between the feed pads and the ground part, wherein the meta ground part is electrically insulated from the feed pads and the ground part.