Mri head coil comprising an open shield

What is claimed is: 1 . A magnetic resonance imaging (MRI) head coil comprising: a phased array receive coil; a first transmit birdcage structure surrounding the phased array receive coil, wherein the first transmit birdcage structure comprises a plurality of first transmit rungs spaced in a first closed path, and wherein inter-rung spacing at one or more first locations on the first closed path is greater than inter-rung spacing at a remainder of the first closed path; and a first shield birdcage structure surrounding the first transmit birdcage structure, wherein the first shield birdcage structure comprises a plurality of first shield rungs spaced in a second closed path and elongated in a same direction as the first transmit rungs, wherein inter-rung spacing at one or more second locations on the second closed path is greater than inter-rung spacing at a remainder of the second closed path, and wherein the one or more second locations respectively border the one or more first locations. 2 . The MRI head coil according to claim 1 , wherein the inter-rung spacing at the remainder of the first closed path is uniform, and wherein the inter-rung spacing at the one or more first locations is an integer multiple of the inter-rung spacing at the remainder of the first closed path. 3 . The MRI head coil according to claim 1 , wherein the first transmit birdcage structure is tuned to a Larmor frequency for 7 tesla or above. 4 . The MRI head coil according to claim 1 , wherein a total number of the first transmit rungs is greater than about 16. 5 . The MRI head coil according to claim 1 , wherein the MRI head coil has one or more openings extending through the MRI head coil respectively at the one or more first locations and respectively at the one or more second locations, and wherein the one or more openings extend through the MRI head coil transverse to a direction along which the first transmit and shield rungs are elongated. 6 . The MRI head coil according to claim 1 , further comprising: a second transmit birdcage structure surrounding the phased array receive coil, wherein the second transmit birdcage structure comprises a plurality of second transmit rungs spaced in a third closed path and elongated in parallel with the first transmit rungs, wherein inter-rung spacing at one or more third locations on the third closed path is greater than inter-rung spacing at a remainder of the third closed path, and wherein a total number of the one or more first locations is different than a total number of the one or more third locations. 7 . The MRI head coil according to claim 6 , wherein the second transmit birdcage structure comprises capacitors for resonance, and wherein the MRI head coil further comprises: a second shield birdcage structure surrounding the second transmit birdcage structure, wherein the second shield birdcage structure is the same as the second transmit birdcage structure except that the second shield birdcage structure is devoid of capacitors and is wider. 8 . The MRI head coil according to claim 6 , wherein the total number of the one or more first locations is two and the total number of the one or more third locations is one, and wherein the one or more third locations is between the one or more first locations. 9 . A magnetic resonance imaging (MRI) system comprising an MRI head coil, wherein the MRI head coil comprises: an open shield comprising a plurality of first shield grid segments bordering in a first closed path to define a first shield birdcage structure; a phased array receive coil; and a transmit coil between the phased array receive coil and the open shield, wherein the transmit coil comprises a plurality of first transmit grid segments bordering in a second closed path to define a first transmit birdcage structure with rungs elongated in a same direction as rungs of the first transmit birdcage structure; wherein the first shield and transmit grid segments are ring shaped, wherein at least one of the first transmit grid segments is larger than a remainder of the first transmit grid segments, and wherein at least one of the first shield grid segments is larger than a remainder of the first shield grid segments and respectively borders the at least one of the first transmit grid segments. 10 . The MRI system according to claim 9 , wherein the remainder of the first transmit grid segments have a first common size, and wherein the remainder of the first shield grid segments have a second common size greater than the first common size. 11 . The MRI system according to claim 9 , wherein the first transmit grid segments are each localized between two neighboring rungs of the first transmit birdcage structure. 12 . The MRI system according to claim 9 , further comprising: an MRI scanner comprising a basic field magnet, wherein the MRI scanner is devoid of a transmit coil, and wherein the MRI head coil is in the MRI scanner. 13 . The MRI system according to claim 9 , further comprising: an MRI scanner comprising a basic field magnet and accommodating the MRI head coil, wherein the MRI scanner is configured to generate a B 0 magnetic field in a direction parallel to rungs of the first transmit birdcage structure, and wherein the B 0 magnetic field is at least 7 tesla. 14 . The MRI system according to claim 9 , wherein the MRI head coil is cylindrical or dome shaped, and wherein the first and second closed paths are circular and extend along a circumference of the MRI head coil. 15 . A method for magnetic resonance imaging (MRI) comprising: providing an MRI head coil comprising: a phased array receive coil; a first transmit birdcage structure surrounding the phased array receive coil, wherein the first transmit birdcage structure comprises multiple first transmit rungs; and a first shield birdcage structure surrounding the first transmit birdcage structure, wherein the first shield birdcage structure comprises multiple first shield rungs elongated in a same direction as the first transmit rungs; wherein the first transmit rungs are evenly spaced in a first closed path but for one or more first locations on the first closed path, wherein the first shield rungs are evenly spaced in a second closed path but for one or more second locations on the second closed path, and wherein the one or more second locations respectively border the one or more first locations; arranging the MRI head coil on a patient, such that eyes of the patient respectively face the one or more first locations and respectively face the one or more second locations; and performing an MRI process on the patient using the MRI head coil, wherein the MRI process generates an image of the patient. 16 . The method according to claim 15 , wherein a total number of the first transmit rungs is greater than 16, wherein a total number of the first shield rungs is a same as the total number of the first transmit rungs, and wherein the MRI process is performed with a B 0 magnetic field that is 7 tesla or above. 17 . The method according to claim 15 , wherein inter-rung spacing at the one or more first locations is greater than, and an integer multiple of, inter-rung spacing at a remainder of the first closed path. 18 . The method according to claim 15 , wherein the MRI head coil further comprises a second transmit birdcage structure, wherein the second transmit birdcage structure comprises multiple second transmit rungs elongated in a same direction as the first transmit rungs, wherein the second transmit rungs are evenly spaced in a third cl