Imaging the teeth by means of magnetic resonance technology with non-unique gradients

The invention claimed is: 1. A gradient system of a magnetic resonance system comprising: a gradient coil which generates three superimposed gradient fields in a coordinate system, wherein at least one of the three gradient fields extends in parallel or orthogonally to an approximately U-shaped center plane of the teeth of a jaw of a patient, wherein the at least one of the gradient fields is not spatially unique in a respective direction of the coordinate system, and wherein the at least one of the gradient fields has the same field strength for at least two different coordinate areas in the respective direction. 2. The gradient system as claimed in claim 1 , wherein the gradient coil is embodied to be arranged in a measurement volume of the magnetic resonance system around the head of the patient around the jaw of the patient. 3. The gradient system as claimed in claim 1 , wherein the gradient system is configured to be fixed on the head of the patient. 4. The gradient system as claimed in claim 3 , comprising: a biting apparatus, wherein the gradient system is configured to be fixed on the head of the patient via the biting apparatus on which the patient bites to achieve fixation. 5. The gradient system as claimed in claim 1 , comprising: a plurality of high-frequency antennas. 6. The gradient system as claimed in claim 5 , wherein the gradient coil is arranged around the jaw of the patient, and wherein at least one of the plurality of high-frequency antennas is arranged between the gradient coil and the jaw of the patient. 7. The gradient system as claimed in claim 5 , wherein at least one of the plurality of high-frequency antennas is arranged intraorally in the interior of the jaw of the patient. 8. A method for generating magnetic resonance data on the teeth of a patient in a selected region using a magnetic resonance system comprising: providing irradiation of at least one high-frequency pulse into the selected region, reading out measuring signals generated, during the irradiation of the at least one high-frequency pulse and the reading-out of the measuring signals, switching three superimposed gradient fields for spatial encoding, wherein the three superimposed irradiated gradient fields are at least partially generated by a gradient coil in a coordinate system, wherein at least one of the three gradient fields extends in parallel or orthogonally to an approximately U-shaped center plane of the teeth of a jaw of the patient, wherein at least one of the gradient fields is not spatially unique in a respective direction of the coordinate system, and wherein the at least one of the gradient fields has the same field strength for at least two different coordinate areas in the respective direction; storing the read-out measuring signals as magnetic resonance data; processing the magnetic resonance data obtained to form an image data set; and displaying and/or storing the image data set obtained from the processing of the magnetic resonance data. 9. A magnetic resonance system for acquiring magnetic resonance data in a selected region within an object under examination, comprising: a basic magnet; a gradient system comprising a gradient coil configured to generate three superimposed gradient fields in a coordinate system, wherein at least one of the three gradient fields extends in parallel or orthogonally to an approximately U-shaped center plane of the teeth of a jaw of a patient, wherein at least one of the gradient fields is not spatially unique in a respective direction of the coordinate system, and wherein the at least one of the gradient fields has the same field strength for at least two different coordinate areas in the respective direction, a high frequency antenna for receiving the measuring signals; a control mechanism configured to control the gradient system for evaluating the measuring signals and for creating the magnetic resonance data. 10. The magnetic resonance system as claimed in claim 9 , wherein the magnetic resonance system irradiates at least one high-frequency pulse into the selected region of the teeth of the patient, reads out generated measuring signals, during the irradiation of the at least one high-frequency pulse and the reading-out of the measuring signals, switches the gradient fields for spatial encoding, stores the read-out measuring signals as magnetic resonance data, processes the magnetic resonance data acquired to form an image data set and displays and/or stores the image data set obtained from the processing of the magnetic resonance data. 11. A non-transitory computer readable medium comprising: instructions executable by a computer for generating magnetic resonance data on the teeth of a patient in a selected region using a magnetic resonance system comprising: providing irradiation of at least one high-frequency pulse into the selected region, reading out measuring signals generated, during the irradiation of the at least one high-frequency pulse and the reading-out of the measuring signals, switching gradient fields for spatial encoding, wherein the irradiated gradient fields are at least partially generated by a gradient system in a coordinate system, wherein at least one of the gradient fields is not spatially unique in a respective direction of the coordinate system, and wherein the at least one of the gradient fields has the same field strength for at least two different coordinate areas in the respective direction; storing the read-out measuring signals as magnetic resonance data; processing the magnetic resonance data obtained to form an image data set; and displaying and/or storing the image data set obtained from the processing of the magnetic resonance data.