Radio frequency (RF) coil device, magnetic resonance apparatus employing the RF coil device, and method of operating the RF coil device

What is claimed is: 1. A radio frequency (RF) coil device, comprising: a plurality of RF coil elements configured to generate an RF magnetic field; and a support member configured to support the plurality of RF coil elements so that at least one of the plurality of RF coil elements is movable independently in each of a circumferential direction and a length direction in response to a predicted specific absorption rate (SAR) of a target. 2. The RF coil device of claim 1 , wherein the support member has a cylindrical shape and is configured to be disposed on an inner surface of a cylindrical housing of a magnetic resonance imaging (MRI) apparatus; and the plurality of RF coil elements is arranged along a circumference of the support member. 3. The RF coil device of claim 2 , wherein the support member is further configured to support the plurality of RF coil elements so that the at least one of the plurality of RF coil elements is movable along the circumference of the support member to adjust spacings on the circumference between the at least one of the plurality of RF coil elements and other ones of the plurality of RF coil elements that neighbor the at least one of the plurality of RF coil elements. 4. The RF coil device of claim 2 , wherein the support member is further configured to support the plurality of RF coil elements so that the at least one of the plurality of RF coil elements is detachable from the support member. 5. The RF coil device of claim 2 , wherein each of the plurality of RF coil elements comprises a conductor extending in the length direction of the cylindrical housing. 6. The RF coil device of claim 2 , wherein each of the at least one of the plurality of RF coil elements comprises a plurality of sub-elements arranged in the length direction of the cylindrical housing; and the support member is further configured to support the plurality of sub-elements so that at least one of the plurality of sub-elements of each of the at least one of the plurality of RF coil elements is movable in the length direction. 7. The RF coil device of claim 1 , wherein the support member has a cylindrical or semicylindrical shape configured to surround a part of a target; and the plurality of RF coil elements is arranged along a circumference of the support member. 8. The RF coil device of claim 7 , wherein the support member is further configured to support the plurality of RF coil elements so that the at least one of the plurality of RF coil elements is movable along the circumference of the support member to adjust spacings on the circumference between the at least one of the plurality of RF coil elements and other ones of the plurality of RF coil elements that neighbor the at least one of the plurality of RF coil elements. 9. The RF coil device of claim 1 , wherein the support member comprises a plurality of support blocks configured to support respective ones of the plurality of RF coil elements; and the plurality of support blocks is connected together to form a two-dimensional surface configured to cover a part of a target. 10. The RF coil device of claim 9 , wherein at least one of the plurality of support blocks is connected to at another one of the plurality of support blocks so that a spacing between the at least one of the plurality of support blocks and the other one of the plurality of support blocks on the two-dimensional surface of the support member is adjustable. 11. The RF coil device of claim 9 , wherein at least one of the plurality of support blocks is connected to another one of the plurality of support blocks so that a distance between the at least one of the plurality of support blocks and the target is adjustable. 12. The RF coil device of claim 1 , wherein the plurality of RF coil elements is further configured to be independently operable in a multi-channel coil mode. 13. The RF coil device of claim 1 , further comprising a driver and controller configured to drive and control the plurality of RF coil elements; wherein the driver and controller is further configured to independently control a magnitude and a phase of power input to the plurality of RF coil based on positions of the plurality of RF coil elements relative to one another. 14. The RF coil device of claim 13 , further comprising a probe configured to measure a strength of an RF magnetic field generated by the plurality of RF coil elements; wherein the driver and controller is further configured to predict the specific absorption rate (SAR) of the target based on the strength of the RF magnetic field measured by the probe. 15. The RF coil device of claim 1 , wherein the RF coils are moved in response to the predicted SAR being higher than a maximum permissible SAR. 16. A magnetic resonance apparatus, comprising: a main magnet; and a radio frequency (RF) coil device; wherein the RF coil device comprises: a plurality of RF coil elements configured to generate an RF magnetic field; and a support member configured to support the plurality of RF coil elements so that at least one of the plurality of RF coil elements is movable independently in each of a circumferential direction and a length direction in response to a predicted specific absorption rate (SAR) of a target. 17. The magnetic resonance apparatus of claim 16 , wherein the magnetic resonance apparatus is a magnetic resonance imaging apparatus or a magnetic resonance spectroscopy apparatus. 18. A method of driving and controlling a radio frequency (RF) coil device, the RF coil device comprising a plurality of RF coil elements configured to generate an RF magnetic field, and a driver and controller configured to drive and control the plurality of RF coil elements to be moveable independently in each of a circumferential direction and a length direction, the method comprising: the method comprising: predicting a specific absorption rate (SAR) of a target with the plurality of RF coil elements positioned at basic positions; and adjusting a position of at least one of the plurality of RF coil elements independently in at least one of the circumferential direction and the length direction in response to the predicted SAR being higher than a maximum permissible SAR. 19. The method of claim 18 , further comprising predicting an SAR of the target with the at least one of the plurality of RF coil elements at the adjusted position. 20. The method of claim 18 , wherein the adjusting of a position of the at least one of the plurality of RF coil elements comprises adjusting a distance between the at least one of the plurality of RF coil elements and the target. 21. The method of claim 18 , wherein the adjusting of a position of the at least one of the plurality of RF coil elements comprises adjusting a spacing between the at least one of the plurality of RF coil elements and at least one other one of the plurality of RF coil elements that neighbors the at least one of the plurality of RF coil elements. 22. A radio frequency (RF) coil device, comprising: a plurality of RF coil elements configured to have a configuration changeable by independently moving the RF coil elements, the RF coil elements being configurable in circumferential and length directions, and configured to generate an RF magnetic field in response to a predicted specific absorption rate (SAR)of a target. 23. The RF coil device of claim 22 , wherein at least one of the plurality of RF coil elements is configured to be movable to change the config