Axial flow pump with reduced height dimension

The invention claimed is: 1. An axial flow pump comprising: a housing, having a bore and a fluid inlet and fluid outlet at each end of the bore; a magnet sleeve, supported for rotation in the bore and defining a longitudinal axis of the pump, the magnet sleeve comprising a permanent magnet; a first impeller, supported by the magnet sleeve for rotation with the magnet sleeve about the longitudinal axis to drive fluid in a flow along the bore of the housing from the fluid inlet to the fluid outlet, the flow being in the direction of the longitudinal axis, past the first impeller; a stator mounted around the housing and comprising a coil adapted to impart a varying magnetic field through the housing to drive the magnet sleeve about the longitudinal axis, wherein: the stator comprises a lamination stack which is asymmetric in section across the longitudinal axis, having a long dimension in a first direction and a short dimension in a second direction transverse to the first direction, and wherein the diameter of the bore is at least 70% of the short dimension of the section. 2. A compound pump comprising two pumps, wherein each of the two pumps is the axial flow pump according to claim 1 , wherein the fluid outlet of a first of the two pumps comprises the fluid inlet of a second of the two pumps, and wherein the impellers of each pump are configured to rotate in opposite directions with respect to one another. 3. An axial flow pump according to claim 1 , wherein a height of the pump, excluding the fluid inlet and fluid outlet, is the short dimension of the lamination stack. 4. An axial flow pump according to claim 1 , wherein the axial pump is mounted on a coldplate of a component of a server to be cooled and supplies the coldplate with coolant, wherein the lamination stack contacts the coldplate whereby heat from the component and from the lamination stack is extracted by the coldplate. 5. An axial flow pump according to claim 1 , further comprising a first radial spoke, depending from the housing into the bore and mounting a first bearing journal at the longitudinal axis; and a second radial spoke, axially spaced from the first radial spoke, depending from the housing into the bore and mounting a second bearing journal at the longitudinal axis, the magnet sleeve having an axle supported for rotation between the first and second bearing journals. 6. An axial flow pump according to claim 1 , wherein a second impeller is supported in series with the first impeller on the magnet sleeve for rotation with the magnet sleeve about the longitudinal axis to drive fluid along the bore of the housing from the fluid inlet to the fluid outlet. 7. An axial flow pump according to claim 1 , wherein the housing comprises an inlet part and an outlet part clamped together in an axial direction, and sealed with respect to one another by an annular gasket seal. 8. An axial flow pump according to claim 1 , wherein the coil is disposed at a coil region of the lamination stack, the coil lying within the confines of the short dimension and being to one side of the housing. 9. An axial flow pump according to claim 1 , wherein the coil is a first elongate coil providing a magnetic field whose magnetic plane through the coil is parallel the longitudinal axis. 10. An axial flow pump according to claim 1 , wherein the stator is substantially rectangular in section. 11. An axial flow pump according to claim 1 , wherein the housing comprises an inlet part and an outlet part clamped together in an axial direction, the inlet part including a first end plate having the fluid inlet and the outlet part including a second end plate having the fluid outlet; one of the first and second endplates comprises a tubular member defining the bore and passing through the stator, and the other of the first and second endplates comprises a socket against which an open end of the bore mates when the housing is assembled; and the first and second endplates have inter-engaging arms to effect the clamping, the first and second endplates and the tubular member securing the stator to the housing. 12. An axial flow pump according to claim 1 , wherein the axial pump is a micro-axial pump packaged into a server. 13. An axial flow pump according to claim 1 , wherein the lamination stack comprises: a first C-shaped lamination stack and the coil comprises a first coil associated therewith, and a second C-shaped lamination stack and the coil comprises a second coil associated with the second C-shaped lamination stack, wherein said first and second C-shaped lamination stacks are disposed one on either side of the housing bore. 14. An axial flow pump according to claim 13 , wherein the housing comprises an inlet part and an outlet part clamped together in an axial direction; and the clamping of the inlet part and the outlet part clamps the first and second C-shaped lamination stacks together and to the housing. 15. An axial flow pump according to claim 14 , wherein the lamination stack comprises detent bores extending therethrough parallel the longitudinal axis, and the inlet and outlet parts comprise detent pegs engaging the detent bores and locating the lamination stack against the inlet and outlet parts when the inlet and outlet parts are clamped together. 16. An axial flow pump according to claim 14 , wherein the inlet and outlet parts comprise mutually inter-engaging arms having hook elements that snap into engagement around the lamination stack to retain the inlet and outlet parts together. 17. An axial flow pump comprising: a housing, having a bore and a fluid inlet and fluid outlet at each end of the bore; a magnet sleeve, supported for rotation in the bore and defining a longitudinal axis of the pump, a permanent magnet being mounted on the magnet sleeve; a first impeller, supported on the magnet sleeve for rotation with the magnet sleeve about the longitudinal axis to drive fluid in a flow along the bore of the housing from the fluid inlet to the fluid outlet, the flow being in the direction of the longitudinal axis, through the first impeller; a stator mounted around the housing and comprising a coil adapted to impart a varying magnetic field through the housing to drive the magnet sleeve about the longitudinal axis, wherein: the pump has a width in a first direction perpendicular to the longitudinal axis and a height in a second direction perpendicular to the longitudinal axis and to the first direction; the stator comprises a lamination stack on which the coil is mounted, the coil being disposed in a coil region of the lamination stack, the coil region comprising a section of the lamination stack in a plane perpendicular to the longitudinal axis, the coil region comprising the area encompassed by the coil passing through the section, wherein the coil region is located, with respect to the longitudinal axis, beyond a width tangent line of the bore, the width tangent line being parallel to the second direction. 18. A pump according to claim 17 , wherein the coil region is within the confines of height tangent lines of the bore, the height tangent lines being parallel the first direction. 19. An axial flow pump comprising: a housing, having a bore and a fluid inlet and fluid outlet at each end of the bore; a magnet sleeve, supported for rotation in the bore and defining a longitudinal axis of the pump, the magnet sleeve comprising a permanent magnet; a first impeller, supported by the magnet sleeve for rotation with the magnet sleeve about the longitudinal ax