Magnetic field generator and magnetic sensor having the same

What is claimed is: 1. A magnetic field generator comprising: an upper layer coil composed of a first conductive material and forming a loop circuit having a coil portion; a lower layer coil composed of a second conductive material and forming a loop circuit having a coil portion arranged opposite to the coil portion of the upper layer coil at a predetermined distance; a substrate supporting the upper layer coil and the lower layer coil and having a dielectric material between the upper layer coil and the lower layer coil; a ground layer having a ground potential arranged to sandwich the upper layer coil and the lower layer coil on one surface and an other surface of the substrate; an upper layer power source that supplies a high-frequency current to the upper layer coil; and a lower layer power source that supplies a high-frequency current having a phase opposite to that of the high-frequency current supplied to the upper layer coil, wherein high-frequency currents of opposite phases are passed through the upper layer coil and the lower layer coil, respectively, and a length per loop of the coil portion in the upper layer coil and in the coil portion in the lower layer coil is matched to one wavelength of the high-frequency current. 2. The magnetic field generator of claim 1 , wherein the coil portion of at least one of the upper layer coil and the lower layer coil is made of plural coils facing each other at a predetermined distance. 3. The magnetic field generator of claim 1 , wherein a plane parallel to the coil portion of the upper and lower layer coils and positioned between the upper layer coil and the lower layer coil is designated as an XY plane with one direction called as a vertical direction and other direction called as a horizontal direction, and the coil portion of the upper layer coil or the lower layer coil has an aspect ratio of 1 regarding dimensions along a vertical and a horizontal dimension. 4. The magnetic field generator of claim 1 , wherein a plane parallel to the coil portion of the upper and lower layer coils and positioned between the upper layer coil and the lower layer coil is designated as an XY plane with one direction called as a vertical direction and other direction called as a horizontal direction, and the coil portion of the upper layer coil or the lower layer coil has an aspect ratio of other than 1 regarding dimensions along a vertical and a horizontal dimension. 5. The magnetic field generator of claim 1 , further comprising: a slit is formed in the coil portion of the upper layer coil, and the high-frequency current from the upper layer power source is supplied to one of both ends of the coil portion formed by the slit; a slit is formed in the coil portion of the lower layer coil, and the high-frequency current from the lower layer power source is supplied to one of both ends of the coil portion formed by the slit; an input change switch for switching the high-frequency current from the upper layer power source to flow to which of the both ends of the coil portion of the upper layer coil that receives a supply of the high-frequency current from the upper layer power source; and an input change switch for switching the high-frequency current from the lower layer power source to flow to which of the both ends of the coil portion of the lower layer coil that receives a supply of the high-frequency current from the lower layer power source. 6. The magnetic field generator of claim 1 , further comprising: a phase adjuster for generating a standing wave of the high-frequency current in the upper layer coil by supplying the high-frequency current from the upper layer power source to both ends of the coil portion formed by a slit; and a phase adjuster for generating a standing wave of the high-frequency current in the lower layer coil by supplying the high-frequency current from the lower layer power source to both ends of the coil portion formed by a slit. 7. The magnetic field generator of claim 1 , wherein a slit is formed in the coil portion of the lower layer coil, and the high-frequency current from the power source is supplied to one of both ends of the coil portion formed by the slit, and an input change switch is provided for switching which of the both ends of the coil portion of the lower layer coil that receives a supply of the high-frequency current from the power source. 8. The magnetic field generator of claim 1 , wherein a slit is formed in the coil portion of the lower layer coil, and a phase adjuster is provided for generating a standing wave of the high-frequency current in the lower layer coil when supplying the high frequency current from the power source to both ends of the coil portion formed by the slit. 9. A magnetic sensor comprising: a magnetic field generator including: an upper layer coil composed of a first conductive material and forming a loop circuit having a coil portion; a lower layer coil composed of a second conductive material and forming a loop circuit having a coil portion arranged opposite to the coil portion of the upper layer coil at a predetermined distance; a substrate supporting the upper layer coil and the lower layer coil and having a dielectric material between the upper layer coil and the lower layer coil; a ground layer having a ground potential and including (i) a top ground layer portion located on a top surface of the substrate, and (ii) a bottom ground layer portion located on a bottom surface of the substrate, such that the upper layer coil and the lower layer coil are sandwiched between the top ground layer portion and the bottom ground layer portion; an upper layer power source that supplies a high-frequency current to the upper layer coil; and a lower layer power source that supplies a high-frequency current having a phase opposite to that of the high-frequency current supplied to the upper layer coil, wherein high-frequency currents of opposite phases are passed through the upper layer coil and the lower layer coil, respectively, and a length per loop of the coil portion in the upper layer coil and in the coil portion in the lower layer coil is matched to one wavelength of the high-frequency current, wherein the substrate has a through hole piercing a front and a back surface thereof and passing through an inside of the coil portion of the upper layer coil and the lower layer coil, and a magnetic field measuring element is arranged in the through hole and measures an external magnetic field, and a light source irradiates the magnetic field measuring element with a light of specific wavelength. 10. The magnetic sensor of claim 9 further comprising: a measurement unit provided in the magnetic field measuring element for receiving a wavelength-converted light out of the irradiated light. 11. The magnetic field generator of claim 9 , wherein a plane parallel to the coil portion of the upper and lower layer coils and positioned between the upper layer coil and the lower layer coil is designated as an XY plane with one direction called as a vertical direction and other direction called as a horizontal direction, and the coil portion of the upper layer coil or the lower layer coil has an aspect ratio of 1 regarding dimensions along a vertical and a horizontal dimension. 12. The magnetic field generator of claim 9 , wherein a plane parallel to the coil portion of the upper and lower layer coils and positioned between the upper layer coil and the lower layer coil is designated as an XY plane with one direction called as a vertical direction and other direction called as a horizontal direction, and the coil portion of the uppe