Micro coil

What is claimed is: 1. A micro coil comprising: a micro coil body having heat resistance sufficient to keep the micro coil body from thermal decomposition and melting in a high-temperature environment; and a coating layer provided on a surface of the micro coil body, the coating layer having the heat resistance, and having electrical conductivity under the high-temperature environment and an oxidizing atmosphere, wherein the coating layer has a shape that causes induced current to be produced according to a magnetic-field component of radio waves, when the micro coil receives the radio waves. 2. The micro coil according to claim 1 , wherein: the micro coil body comprises one of a silicon nitride micro coil composed of silicon nitride, a titanium oxide micro coil composed of titanium oxide, and a titanium carbide micro coil composed of titanium carbide; and the coating layer is configured to cover a part or an entire area of the surface of the micro coil body. 3. The micro coil according to claim 1 , wherein: the micro coil body comprises a carbon micro coil composed of carbon, or a titanium carbide micro coil composed of titanium carbide; and the coating layer is configured to cover an entire area of the surface of the micro coil body. 4. The micro coil according to claim 1 , wherein the coating layer comprises at least one of conductive metals, conductive metal oxides, and conductive metal composite oxides. 5. The micro coil according to claim 4 , wherein the conductive metals include one or more types of metal selected from platinum, gold, zinc, and silver, and the conductive metal oxides include one or more types of metal oxide selected from silver oxide and zinc oxide, while the conductive metal composite oxides include perovskite oxide. 6. The micro coil according to claim 5 , wherein the perovskite oxide is selected from perovskite oxides having NOx removing capability. 7. The micro coil according to claim 1 , wherein the coating layer has a coil shape following a coil shape of the micro coil body. 8. The micro coil according to claim 1 , wherein the high-temperature environment is an environment of temperatures equal to or higher 500° C. and equal to or lower than 1000° C.