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A magnetic resonance imaging (MRI) magnet having a first section and a second section is disclosed. The first section has a first housing, and a first set of magnet coils arranged about a common axis that include coils proximate the common axis. The second section has a second housing, and a second

A magnetic resonance imaging (MRI) magnet having a first section and a second section is disclosed. The first section has a first housing, and a first set of magnet coils arranged about a common axis that include coils proximate the common axis. The second section has a second housing, and a second set of magnet coils arranged about the common axis where the coils are radially displaced from the common axis. The second section is connected to but axially displaced a distance "d" from the first section.

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What is claimed is: 1. A magnetic resonance imaging (MRI) magnet, comprising: a lower first section of a magnet having a first housing and a first set of magnet coils arranged about a common axis, the first set of magnet coils including coils proximate the common axis; and an upper second section o

What is claimed is: 1. A magnetic resonance imaging (MRI) magnet, comprising: a lower first section of a magnet having a first housing and a first set of magnet coils arranged about a common axis, the first set of magnet coils including coils proximate the common axis; and an upper second section of the magnet having a second housing and a second set of magnet coils arranged about the common axis, the second set of magnet coils being radially displaced from the common axis; wherein the upper second section of the magnet is connected to but axially displaced a distance "d" from the lower first section of the magnet; wherein the lower first section of the magnet is a closed magnet; and wherein the upper second section of the magnet is an open magnet; wherein the upper second section of the magnet is ring-shaped thereby providing an axial opening in order to allow unobstructed end access to an object disposed between the lower first and upper second sections of the magnet; and wherein the upper second section of the magnet is connected to the lower first section of the magnet via a set of supports that provide openings in order to allow unobstructed side access to an object disposed between the lower first and upper second sections of the magnet. 2. The magnet of claim 1, wherein: in response to an energized magnet, a field of view is established within the distance "d". 3. The magnet of claim 1, wherein: in response to an energized magnet, a field of view is established on the common axis. 4. The magnet of claim 1, wherein the second upper section of the magnet is smaller in diameter than the lower first section of the magnet. 5. The magnet of claim 1 for examination of a patient, wherein the distance "d" is so dimensioned as to receive means for inserting the patient therethrough. 6. The magnet of claim 1, wherein: the inner diameter of the upper second section of the magnet increases with an increasing distance from the lower first section of the magnet. 7. The magnet of claim 1, wherein: the first set of magnet coils comprises a primary coil, a compensation coil, a shielding coil, or any combination comprising at least one of the foregoing coils; and the second set of magnet coils comprises a primary coil, a compensation coil, a shielding coil, or any combination comprising at least one of the foregoing coils. 8. The magnet of claim 1, wherein: the lower first section of the magnet comprises iron sufficient to effect stray field management. 9. The magnet of claim 1, wherein: the lower first section of the magnet, the upper second section of the magnet, or both lower first and upper second sections of the magnet comprises iron sufficient to effect magnetic field homogeneity at a field of view. 10. The magnet of claim 1, wherein: the distance "d" is sufficient to receive a human head. 11. The magnet of claim 1, wherein: the distance "d" is equal to or greater than about 30 centimeters. 12. The magnet of claim 1, wherein: the distance "d" is equal to or greater than about 40 centimeters. 13. The magnet of claim 1, wherein: the axial opening of the upper second section of the magnet has a diameter sufficient to receive a human arm. 14. The magnet of claim 1, wherein: the axial opening of the upper second section of the magnet has a diameter equal to or greater than about 30 centimeters. 15. The magnet of claim 1, wherein: the cross section of the upper second section of the magnet reduces in size with an increasing distance from the lower first section of the magnet. 16. A magnetic resonance imaging (MRI) magnet, comprising: a first closed magnet having a first housing and a first set of magnet coils arranged about a common axis, the first set of magnet coils including coils proximate the common axis; a second open ring-shaped magnet having a second housing and a second set of magnet coils arranged about the common axis, the second set of magnet coils being radially displaced from the common axis thereby providing an axial opening within the ring-shaped magnet in order to allow unobstructed end access to an object disposed between the first closed and second open magnets; and the second open magnet being connected to but axially displaced a distance "d" from the first closed magnet via a set of supports that provide openings in order to allow unobstructed side access to the object disposed between the first closed magnet and second open ring-shaped magnets. 17. A magnetic resonance imaging (MRI) system, comprising: a MRI magnet; and a control system configured for controlling the operation of the MRI magnet such that MRI data of an object may be generated and saved for subsequent post-processing and analysis; wherein the MRI magnet comprises: a lower first section of the magnet having a first housing and a first set of magnet coils arranged about a common axis, the first set of magnet coils including coils proximate the common axis, the lower first section of the magnet defining a closed magnet; an upper second section of the magnet having a second housing with an unobstructed axial opening therethrough and a second set of magnet coils arranged about the common axis, the second set of magnet coils being radially displaced from the common axis, the upper second section of the magnet defining an open magnet; the upper second section of the magnet being connected to but axially displaced a distance "d" from the lower first section of the magnet via a set of supports with more than two unobstructed side openings therebetween; and wherein unobstructed side access through the more than two side openings and unobstructed end access through the axial opening is provided to an object disposed between the lower first and upper second sections of the magnet. 18. An open MRI magnet assembly comprising: a first closed ended magnet; a second open ended magnet connected to the first closed ended magnet and having a volume defined therebetween, the second open ended magnet having an unobstructed end opening therethrough in order to allow access to the volume defined between the second open ended magnet and the first closed ended magnet; a plurality of supports connecting the first closed ended magnet and the second open ended magnet; wherein each of the plurality of supports has a height such that a passage is formed between the second open ended magnet and the first closed ended magnet in order to allow a subject to be removably positioned in the volume between the second open ended magnet and the first closed ended magnet; and wherein the plurality of supports is arranged circumferentially around the first closed ended magnet such that a number of more than two unobstructed side access openings is formed generally orthogonal to the unobstructed end opening of the second open ended magnet. 19. The open MRI magnet assembly of claim 18 wherein the unobstructed opening in the second open ended magnet is sized in order to allow unobstructed access of an interventional apparatus to a subject disposed in the volume between the second open ended magnet and the first closed ended magnet. 20. The open MRI magnet assembly of claim 18 wherein the second open-ended magnet is ring-shaped. 21. The open MRI magnet assembly of claim 18 wherein the first closed ended magnet comprises iron sufficient to effect stray field management. 22. The open MRI magnet assembly of claim 18 further comprising a first housing having the first closed ended magnet therein and a second housing having the second open ended magnet therein, and further comprising an operation control interface supported by one of the first housing and the second housing. 23. The open MRI magnet assembly of claim 18 configured to generate at least a 1.5 T magnetic field in the volume defined between the second open ended magnet and the first closed ended magnet. 24. The open MRI magnet assembly of claim 18 wherein each magnet includes at least one of a primary coil, a compensation coil, and a shielding coil. 25. The open MRI magnet assembly of claim 18, wherein the second open ended magnet is smaller in diameter than the first closed ended magnet.