Apparatus and method for decreasing bio-effects of magnetic gradient field gradients

What is claimed is: 1. A magnetic field generator for imaging, the generator comprising: a power source; and at least one coil connected to the power source to generate a time-varying magnetic field, wherein the time-varying magnetic field has a rise- and fall-time selected so as to be too short to elicit a neurological response in tissue, and wherein the time-varying magnetic field has a gradient field strength of more than 1 T/m. 2. The generator of claim 1 , wherein the time-varying magnetic field has a field strength of more than 200 mT. 3. The generator of claim 1 , wherein each rise- and fall-time of the time-varying magnetic field comprises a pulse and at least one section of a pulse sequence used to collect data about a body part is repeated by the coil more than 100 times per second. 4. The generator of claim 1 , wherein each rise- and fall-time of the time-varying magnetic field comprises a pulse and at least one section of a pulse sequence used to collect data about a body part is repeated by the coil more than 1000 times per second. 5. The generator of claim 1 , wherein each rise- and fall-time of the time-varying magnetic field comprises a pulse and at least one section of a pulse sequence used to collect data about a body part is repeated by the coil more than 10000 times per second. 6. The generator of claim 1 , wherein the at least one coil is introduced into a magnetic resonance system to improve visualization of a body part. 7. The generator of claim 1 , wherein the magnitude of the magnetic field is more than 50 mT. 8. The generator of claim 1 , wherein the magnitude of the magnetic field is more than 100 mT. 9. The generator of claim 1 , wherein the magnitude of the magnetic field is more than 200 mT. 10. A magnetic field generator for imaging, the generator comprising: a power source; and at least one coil connected to the power source to generate a magnetic field, wherein the magnetic field has a rise- and fall-time selected so as to be too short to elicit a neurological response in tissue, and wherein the magnitude of the magnetic field is more than 350 mT and a rise-time of less than 250 microseconds. 11. The generator of claim 10 , wherein the magnitude of the magnetic field is more than 400 mT. 12. The generator of claim 10 , wherein the magnitude of the magnetic field is more than 500 mT. 13. A method of imaging tissue using a magnetic field generator, wherein the generator comprises a power source and at least one coil, the method comprising: generating a magnetic field that has a rise- and fall-time selected so as to be too short to elicit a neurological response in tissue, wherein the time-varying magnetic field has a field strength of more than 250 mT and a rise-time of less than 100 microseconds. 14. A method of imaging tissue using a magnetic field generator, wherein the generator comprises a power source and at least one coil, the method comprising: generating a magnetic field that has a rise- and fall-time selected so as to be too short to elicit a neurological response in tissue wherein the magnitude of the magnetic field is more than 400 mT. 15. The method of claim 14 , wherein the magnitude of the magnetic field is more than 500 mT.