Light sheet microscope with line focus

What is claimed is: 1. A light sheet microscope for imaging a biological sample, comprising: at least three beams of collimated light propagating along at least three different propagation axes; a moveable optical assembly comprising at least three optical subassemblies which focus the at least three beams of light into three line foci forming at least three straight lines, wherein at least one of the three straight lines defines a non-orthogonal angle with respect to its propagation axis and wherein the at least three straight lines are substantially overlapping, and wherein the straight lines and the propagation axes define an excitation plane of the light sheet microscope, and wherein the three substantially overlapping lines are moved laterally in a sequence by moving the movable optical assembly laterally, but wherein the substantially overlapping lines remain in the excitation plane. 2. The light sheet microscope of claim 1 , further comprising: a detector with imaging optics having a focal plane, wherein the imaging optics form an image of the focal plane on the detector, wherein a biological sample is disposed in the focal plane, and the focal plane is coplanar with the excitation plane. 3. The light sheet microscope for imaging biological samples of claim 1 , further comprising: a sample holder holding the biological sample, wherein the sample holder is disposed at least partially in the focal plane and the biological sample is disposed in the excitation plane and the focal plane. 4. The light sheet microscope of claim 1 , wherein the sample holder is movable in the z-direction, orthogonal to the focal plane. 5. The light sheet microscope of claim 1 , wherein the sample holder is moved in z-direction orthogonal to the focal plane to image a different region of the biological sample within a depth of the biological sample. 6. The light sheet microscope of claim 1 , wherein the at least two beams illuminate the biological sample in an alternating manner or sequential manner. 7. The light sheet microscope of claim 1 , wherein the non-orthogonal angle is less than 40 degrees. 8. The light sheet microscope of claim 1 , wherein the non-orthogonal angle is between about 5 and about 25 degrees. 9. The light sheet microscope of claim 1 , wherein the three beams of light all impinge on the biological sample from a laterally adjacent side of the biological sample. 10. The light sheet microscope of claim 1 , wherein the at least two beams of light comprises six beams of light, where three of the beams of light impinge on the biological sample from each of two laterally adjacent obverse sides. 11. The light sheet microscope of claim 1 , wherein the collimated light source comprises at least three collimated light sources. 12. The light sheet microscope of claim 1 , further comprising a pixelated detector with an optical axis, wherein the optical axis of the detector is disposed substantially orthogonal to the focal plane. 13. The light sheet microscope of claim 1 , further comprising turning mirrors which redirect a collimated beam from a source, onto the optical axes of the optical subassembly. 14. A light sheet microscope for imaging a biological sample, comprising: at least two collimated light sources each emitting a beam of light along at least two different propagation axes; at least two optical subassemblies which focus the at least two beams of light into line foci forming at least two straight lines, wherein at least one of the two straight lines defines a non-orthogonal angle with respect to its propagation axis and wherein the at least two straight lines are substantially overlapping, and wherein the straight lines and the propagation axes define an excitation plane of the light sheet microscope, further comprising a moveable optical assembly which in turn comprises at least one optical sub-assembly, wherein the at least one optical sub-assembly comprises beam shaping elements, wherein the beam shaping elements include at least one anamorphic lens and two spherical lenses, and wherein these beam shaping elements focus at least a third beam of light into at least a line focues that is tilted with respect to the propagation axis. 15. The light sheet microscope of claim 14 , wherein the beam shaping elements are arranged such that a first spherical lens is followed by the cylindrical lens which is followed by a second spherical lens which are arranged along the propagation axis, and wherein the second spherical lens is tilted at an angle of 16 degrees with respect to an orthogonal to the propagation axis, and wherein the lenses are separated by a lateral distance of less than about 10 mm. 16. The light sheet microscope of claim 14 , wherein the movable optical assembly containing the at least one optical sub-assembly is movable laterally in a plane such that the overlapping line foci also move laterally in a plane, and the lateral defines the focal plane, and wherein the line foci all fall within the focal plane. 17. A light sheet microscope for imaging a biological sample, comprising: at least two collimated light sources each emitting a beam of light along at least two different propagation axes; at least two optical subassemblies which focus the at least two beams of light into line foci forming at least two straight lines, wherein at least one of the two straight lines defines a non-orthogonal angle with respect to its propagation axis and wherein the at least two straight lines are substantially overlapping, and wherein the straight lines and the propagation axes define an excitation plane of the light sheet microscope, further comprising a movable optical assembly which in turn comprises at least one optical sub-assembly, wherein the at least one optical sub-assembly comprises beam shaping elements, wherein the beam shaping elements include at least one anamorphic lens and two spherical lenses, and wherein these beam shaping elements focus at least a third beam of light into at least a line focus that is tilted with respect to the propagation axis, wherein the three line foci from the three optical subassemblies substantially overlap.