Method and device for determination of a magnetic resonance control sequence

I claim as my invention: 1. A computerized method to determine a magnetic resonance control sequence comprising at least one first pulse arrangement that spatially selectively excites nuclear spins in an examination subject in a first selection direction, and a subsequent second pulse arrangement that spatially selectively excites said nuclear spins in said examination subject in a second selection direction, said method comprising: providing a computerized processor with viewing volume dimension parameter values that define a spatial extent of a viewing volume within the examination subject in which said nuclear spins are to be excited; in said computerized processor, establishing said first selection direction and said second selection direction in said magnetic resonance control sequence automatically depending on a length ratio of a spatial extent of said viewing volume in the respective first selection direction and the second selection direction; and via an output interface of said computerized processor, making the magnetic resonance control sequence, with the established first and second selection directions, available in an electronic format configured to operate a magnetic resonance apparatus to acquire magnetic resonance data according to said magnetic resonance control sequence. 2. A method as claimed in claim 1 comprising, in said processor, generating said first pulse arrangement in said magnetic resonance control sequence as a slab excitation radio-frequency pulse, and generating said second pulse arrangement as a refocusing radio-frequency pulse, with a target flip angle of said slab selection radio-frequency pulse being smaller than a target flip angle of said refocusing radio-frequency pulse. 3. A method as claimed in claim 1 wherein the step of providing said computerized processor with said viewing volume dimension parameter values comprises providing said computerized processor with a first selection direction parameter that defines said first selection direction and a second selection direction parameter that defines said second selection direction, and, in said computerized processor, automatically modifying said first selection direction parameter and said selection direction parameter if said first selection direction defined by said first selection direction parameter and said second selection direction defined by said second selection direction parameter do not satisfy a predetermined condition that is dependent on said length ratio. 4. A method as claimed in claim 3 wherein said viewing volume comprises respectively different spatial extents along different spatial directions of said viewing volume, and wherein said predetermined condition is that said second selection direction coincide with a spatial direction of said viewing volume that has a smallest extent. 5. A method as claimed in claim 4 comprising, in said processor, automatically exchanging the first slice direction defined by said first selection direction parameter and the second selection direction defined by said second selection direction parameter if the second selection direction defined by said second selection direction parameter does not coincide with said spatial direction of said viewing volume having said smallest extent. 6. A method to operate a magnetic resonance apparatus comprising: providing a computerized processor with viewing volume dimension parameter values that define a spatial extent of a viewing volume within the examination subject in which said nuclear spins are to be excited; in said computerized processor, establishing said first selection direction and said second selection direction in said magnetic resonance control sequence automatically depending on a length ratio of a spatial extent of said viewing volume in the respective first selection direction and the second selection direction; and via an output interface of said computerized processor, transferring the magnetic resonance control sequence, with the established first and second selection directions, to a magnetic resonance apparatus, and operating the magnetic resonance apparatus to acquire magnetic resonance data according to said magnetic resonance control sequence. 7. A computerized control sequence determination device to determine a magnetic resonance control sequence comprising at least one first pulse arrangement that spatially selectively excites nuclear spins in an examination subject in a first selection direction, and a subsequent second pulse arrangement that spatially selectively excites said nuclear spins in said examination subject in a second selection direction, said device comprising: an input interface configured to provide said computerized processor with viewing volume dimension parameter values that define a spatial extent of a viewing volume within the examination subject in which said nuclear spins are to be excited; said computerized processor being configured to establish said first selection direction and said second selection direction in said magnetic resonance control sequence automatically depending on a length ratio of a spatial extent of said viewing volume in the respective first selection direction and the second selection direction; and an output interface of said computerized processor configured to make the magnetic resonance control sequence, with the established first and second selection directions, available in an electronic format configured to operate a magnetic resonance apparatus to acquire magnetic resonance data according to said magnetic resonance control sequence. 8. A computerized control sequence determination device as claimed in claim 7 : wherein said input interface is configured to provide said computerized processor with a first selection direction parameter that defines said first selection direction and a second selection direction parameter that defines said second selection direction; and said computerized processor comprises a direction parameter modification unit configured to automatically modify said first selection direction parameter and said selection direction parameter if said first selection direction defined by said first selection direction parameter and said second selection direction defined by said second selection direction parameter do not satisfy a predetermined condition that is dependent on said length ratio. 9. A magnetic resonance apparatus comprising: a magnetic resonance data acquisition unit comprising a radio-frequency transmitter, a gradient system, and a control unit; a computerized processor provided with viewing volume dimension parameter values that define a spatial extent of a viewing volume within the examination subject in which said nuclear spins are to be excited; said computerized processor being configured to establish said first selection direction and said second selection direction in said magnetic resonance control sequence automatically depending on a length ratio of a spatial extent of said viewing volume in the respective first selection direction and the second selection direction; said computerized processor comprising an output interface in communication with said control unit, and being configured to transfer the magnetic resonance control sequence, with the established first and second selection directions, in an electronic format to said control unit; and said control unit being configured to operate the radio-frequency transmitter and the gradient system of the magnetic resonance data acquisition unit to acquire magnetic resonance data according to said magnetic resonance control sequence. 10. A non-transitory, computer-readable data storage medium encoded with programming instructions, said storage medium being loaded into