Apparatus, systems and methods for facilitating signal excitation and/or reception in a magnetic resonance system

What is claimed is: 1. A method for facilitating signal excitation and reception in a magnetic resonance system, comprising: arranging an electrically continuous circular conductive structure lying in a transverse plane within a scanner bore, wherein the electrically continuous circular structure is concentric with a center of a scanner radio frequency (RF) shield; and arranging the electrically continuous circular structure so as to have a resonant mode at a magnetic resonance (MR) frequency characterized by a current pattern, the current pattern being configured for exciting and receiving a waveguide mode, wherein the electrically continuous circular conductive structure includes two circular elements separated from one another and lying in the transverse plane which are connected to each other in the transverse plane at a plurality of locations. 2. The method of claim 1 , wherein the current pattern is further configured to facilitate a traveling wave imaging capability. 3. The method of claim 1 , further comprising positioning the structure to be located less than 5 cm from the RF shield. 4. The method of claim 1 , wherein the structure has a diameter sized and configured for a facilitating at least a part of a human subject to pass through the circular structure. 5. The method of claim 1 , wherein the structure is configured to facilitate a generation of an RF magnetic field to enhance a coupling to a particular waveguide mode. 6. The method of claim 5 , wherein the particular waveguide mode is a TE11 waveguide mode. 7. The method of claim 5 , further comprising positioning the structure at a point along a length of the scanner RF shield so as to generate a local excitation of the waveguide mode upon an excitation thereof. 8. The method of claim 7 , wherein the point is a midpoint of a length of the bore. 9. The method of claim 8 , further comprising positioning at least one further structure at various points along the length of the bore, and facilitating particular phase relationships between the circular structure and the at least one further structure so as to facilitate a control over the RF excitation pattern within the bore. 10. The method of claim 1 , wherein the at least one resonant mode is configured to be tuned by an adjustment of a plurality of capacitors so as to facilitate a match to a MR frequency of the scanner. 11. The method of claim 1 , further comprising at least one of displaying or storing at least one of (i) information associated with the MR system, or (ii) information associated with an image generated by the MR system in a storage arrangement in at least one of a user-accessible format or a non-transitory user-readable format. 12. The method of claim 1 , wherein the structure further includes two further circular elements separated from one another and lying in a further plane which are connected to each other in the further plane at a further plurality of locations. 13. The method of claim 12 , wherein the locations and the further locations are the same. 14. The method of claim 13 , wherein the structure includes a plurality of windows, wherein each window of the windows is formed between two adjacent locations. 15. The method of claim 12 , wherein the further plane is substantially perpendicular to the transverse plane. 16. The method of claim 12 , wherein a combined transverse plane and further plane form an x shape. 17. A magnetic resonance coil for facilitating signal excitation and reception in a magnetic resonance system, comprising: an electrically continuous circular conductive structure lying in an axial plane and concentric with a scanner radio frequency (RF) shield, wherein the electrically continuous circular conductive structure comprises a conductive material in at least one of a wire, a tube, a flat tape, or a ribbon shape; and a scanner RF shield, wherein the electrically continuous circular conductive structure is located at least at or near the scanner (RF) shield, and wherein the electrically continuous circular conductive structure is a cylindrical ribbon with a constant gap between it and the scanner RF shield. 18. The coil of claim 17 , wherein a width of the ribbon and a size of the gap are selected to cause the circular conductive structure to facilitate a resonant mode at the MR frequency characterized by a current pattern configured to excite and receive a waveguide mode for facilitating a traveling wave imaging procedure. 19. A magnetic resonance coil for facilitating signal excitation and reception in a magnetic resonance system, comprising: an electrically continuous circular conductive structure lying in an axial plane and concentric with a scanner radio frequency (RF) shield, wherein the electrically continuous circular conductive structure comprises a conductive material in at least one of a wire, a tube, a flat tape, or a ribbon shape; and a scanner RF shield, wherein the electrically continuous circular conductive structure is closer to the scanner RF shield than it is to a central axis of the RF shield, wherein the electrically continuous circular conductive structure comprises one or more capacitors and a conductor, wherein the one or more capacitors are arranged to be in series with the conductor so as to facilitate control of the resonant frequency of a particular mode of the structure, and wherein the electrically continuous circular conductive structure includes two circular elements separated from one another and lying in the transverse plane which are connected to each other in the transverse plane at a plurality of locations. 20. The magnetic resonance coil of claim 19 , wherein the structure further includes two further circular elements separated from one another and lying in a further plane which are connected to each other in the further plane at a further plurality of locations. 21. The magnetic resonance coil of claim 20 , wherein the locations and the further locations are the same. 22. The magnetic resonance coil of claim 21 , wherein the structure includes a plurality of windows, wherein each window of the windows is formed between two adjacent locations. 23. The magnetic resonance coil of claim 20 , wherein the further plane is substantially perpendicular to the transverse plane. 24. The magnetic resonance coil of claim 20 , wherein a combined transverse plane and further plane from an x shape. 25. A method for facilitating signal excitation and reception in a magnetic resonance system, comprising: arranging a plurality of loop pairs, wherein each loop pair comprises orthogonal loops, wherein one loop of each loop pair lies in a transverse plane and is configured to create an RF magnetic field oriented primarily along a Z direction which extends along a direction of extension of a scanner bore, and the other loop of each loop pair is configured to create an RF magnetic field oriented primarily towards a center of the scanner bore; and arranging the plurality of loop pairs to be positioned around a periphery of a radio frequency (RF) shield within a common transverse plane, wherein each of the loops which create an RF magnetic field oriented primarily along the Z direction are driven so as to facilitate a phase of a current in each driven loop to vary based on the azimuthal angle relative to the center of the scanner bore. 26. The method of claim 25 , wherein the Z direction extends along a direction of a main