Flow cytometry optics

1 . A particle analyzer comprising: an ellipsoidal reflector having a shape characterized by lengths of major and minor axes of a defining ellipse and having conjugate foci F 1 and F 2 located on the major axis, with F 1 in a flow path for a stream of particles; one or more light sources configured to provide one or more excitation light beams directed to intersect the stream of particles at or approximately at F 1 , thereby exciting fluorescence from the particles; and a spherical reflector having its center of curvature coincident or approximately coincident with F 1 ; wherein at least a portion of fluorescence emitted toward the ellipsoidal reflector is focused by the ellipsoidal reflector to one or more locations at or near F 2 , at least a portion of fluorescence emitted toward the spherical reflector is retro-reflected by the spherical reflector toward the ellipsoidal reflector which focuses the retro-reflected fluorescence to the one or more locations at or near F 2 , and the ratio of the major and minor axes of the ellipse defining the shape of the ellipsoidal reflector is greater than or equal to about 1.2. 2 . The particle analyzer of claim 1 , wherein the radius of curvature of the spherical reflector is equal or approximately equal to the distance between F 1 and F 2 . 3 . The particle analyzer of claim 1 , wherein the radius of curvature of the spherical reflector is less than the distance between F 1 and F 2 , and the ellipsoidal reflector focuses fluorescence incident on it through the spherical reflector to F 2 beyond the spherical reflector. 4 . (canceled) 5 . The particle analyzer of claim 1 , wherein the numerical aperture of the spherical reflector for collection of fluorescence emitted toward it, retro-reflected to the ellipsoidal reflector, and focused to F 2 is the same or approximately the same as the numerical aperture of the ellipsoidal reflector for collection of fluorescence emitted toward it. 6 . The particle analyzer of claim 1 , comprising an optical fiber into which fluorescence focused to one or more of the locations at or near F 2 is coupled. 7 . The particle analyzer of claim 6 , wherein the ratio of the lengths of the major and minor axes of the defining ellipse provides an ellipsoidal reflector shape that matches or approximately matches the fluorescence focused to locations at or near F 2 to a numerical aperture characterizing the optical fiber. 8 . (canceled) 9 . The particle analyzer of claim 1 , comprising a flow cell formed from a material transparent or substantially transparent to light at wavelengths of the excitation beam and wavelengths of the fluorescence and having a flow channel accommodating flow of the stream of particles along the flow path, wherein the ellipsoidal and spherical reflectors are integral parts of the flow cell formed by reflective coatings on outer surfaces of the flow cell. 10 . The particle analyzer of claim 9 , wherein except for the flow channel all interior portions of the flow cell are solid and formed from the transparent or substantially transparent material. 11 . (canceled) 12 . The particle analyzer of claim 9 , wherein the flow cell comprises a central block portion between the ellipsoidal and spherical reflectors, the central block portion including the flow channel and also including a flat entrance surface through which the one or more excitation beams enter the flow cell and an opposing flat exit surface through which the one or more excitation beams exit the flow cell. 13 .- 15 . (canceled) 16 . The particle analyzer of claim 9 , wherein the radius of curvature of the spherical reflector is less than the distance between F 1 and F 2 , and the ellipsoidal reflector focuses fluorescence incident on it through the spherical reflector to F 2 beyond the spherical reflector. 17 . The particle analyzer of claim 16 , wherein the flow cell comprises: a central block portion between the ellipsoidal and spherical reflectors, the central block portion including the flow channel and also including a flat entrance surface through which the one or more excitation beams enter the flow cell and an opposing flat exit surface through which the one or more excitation beams exit the flow cell; and a portion extending along the major axis beyond the spherical reflector to an end surface at or approximately at F 2 . 18 .- 20 . (canceled) 21 . The particle analyzer of claim 1 , wherein the ellipsoidal reflector comprises a narrow elongated window through which light from the one or more excitation light beams side-scattered by the particles may pass. 22 . (canceled) 23 . A particle analyzer comprising: an ellipsoidal reflector having a shape characterized by lengths of major and minor axes of a defining ellipse and having conjugate foci F 1 and F 2 located on the major axis, with F 1 in a flow path for a stream of particles; one or more light sources configured to provide one or more excitation light beams directed to intersect the stream of particles at or approximately at F 1 , thereby exciting fluorescence from the particles; and a spherical reflector having its center of curvature coincident or approximately coincident with F 1 ; wherein at least a portion of fluorescence emitted toward the ellipsoidal reflector is focused by the ellipsoidal reflector to one or more locations at or near F 2 , at least a portion of fluorescence emitted toward the spherical reflector is retro-reflected by the spherical reflector toward the ellipsoidal reflector which focuses the retro-reflected fluorescence to the one or more locations at or near F 2 , the radius of curvature of the spherical reflector is less than the distance between F 1 and F 2 , and the ellipsoidal reflector focuses fluorescence incident on it through the spherical reflector to F 2 beyond the spherical reflector. 24 .- 36 . (canceled) 37 . A particle analyzer comprising a flow cell comprising a flow channel accommodating flow of a sample stream of particles; an ellipsoidal reflector having a shape characterized by lengths of major and minor axes of a defining ellipse and having conjugate foci F 1 and F 2 , the ellipsoidal reflector formed as an integral part of the flow cell by a reflective coating on an exterior surface of the flow cell with F 1 in the flow channel, the flow cell extending along the major axis of the defining ellipse to an end surface at or approximately at F 2 ; one or more light sources configured to provide one or more excitation light beams directed to intersect the stream of particles at or approximately at F 1 , thereby exciting fluorescence from the particles; and one or more optical fibers bonded to the end surface of the flow cell at or approximately at F 2 ; wherein at least a portion of fluorescence excited by the one or more excitation beams and emitted toward the ellipsoidal reflector is focused by the ellipsoidal reflector to one or more locations at or near F 2 and thereby coupled into the one or more optical fibers, and the ratio of the lengths of the major and minor axes of the defining ellipse provide an ellipsoidal reflector shape that matches the fluorescence focused to locations at or near F 2 to a numerical aperture characterizing the one or more optical fibers. 38 . The particle analyzer of claim 37 , wherein the numerical aperture of the ellipsoidal reflector for collection of fluorescence emitted toward it is greater than or equal to about 1.3, and wherein the fluorescence