Patent Number: 046577211
Section: claims

1. In a system for illuminating a minute target with a laser energy source to achieve fusion conditions that improvement which comprises: a pair of concave ellipsoidal mirrors positioned in opposed relation and spaced to have a common reflective focal point, said mirrors each having a central aperture on a common axis including said focal point to admit a laser beam through the back of each toward the reflective surface of the other with a second focal point of each said ellipsoidal mirror being disposed on said axis adjacent the said aperture in the opposing mirror, and an optical system positioned at each of said apertures on axis with said focal point having the optical function of focusing a laser beam entering on said common axis at the second focal point of the opposing ellipsoidal mirror.  (a) a pair of concave ellipsoidal mirrors positioned in opposed relation and spaced to have a substantially common focal point at a target position, said mirrors each having a central aperture on a common axis including said focal point to admit a laser beam through the back of each toward the reflective surface of the other, and  (b) a lens system in each said beam to focus the reflected paraxial rays of said beam into a spherical target on said axis and to direct marginal rays of said beam to the surface of said target in a direction substantially normal thereto to achieve uniform illumination of the target.  (a) a laser beam source,  (b) a beam splitter to divide the beam into two beams orthogonally disposed relative to each other,  (c) a pair of beam reflectors positioned in each of said beams to direct said beams toward each other on a common axis,  (d) a pair of ellipsoidal mirrors positioned on said common axis having a common reflective focal point and apertured to admit each said beam from the rear of the ellipsoidal surface, and  (e) a lens system in each said beam to focus each beam at a point in the lines of surface of a respective ellipsoidal mirror at said respective apertures.  (a) directing laser beams simultaneously toward a spherical target from opposed directions on a common axis, each to illuminate a hemisphere of the target facing in the direction of the opposing beam,  (b) reflecting each of said beams toward a common focal point on said common axis from an ellipsoidal mirror having a concave reflective surface opposing the associated said hemisphere, and  (c) positioning a spherical target of fusion fuel at said common focal point.  (a) directing a laser beam simultaneously toward a spherical target from opposed direction to illuminated opposite hemispheres of the target,  (b) reflecting each of said beams from an ellipsoidal mirror toward a common focal point,  (c) positioning a spherical target of fusion fuel at said common focal point, and  (d) modifying said beams respectively to vary the marginal ray focus from the paraxial ray focus to achieve optimum target absorptivity at a predetermined phase of implosion. 2. A system as defined in claim 1 in which each of said second focal points is positioned on the line of curvature of the opposing reflective surface. 3. A system as defined in claim 2 in which said optical system includes a focusing lens. 4. A system as defined in claim 1 in which said optical system includes a focusing lens, and an aspheric lens to direct marginal rays of a laser beam behind the normal focal point of the focusing lens. 5. A system as defined in claim 1 in which said optical system is positioned at each of said apertures to direct the laser beam in rays toward a target at the common reflective focal point to achieve optimum target absorptivity at a predetermined phase of implosion. 6. A system for illuminating a minute spherical target with a laser energy source to achieve fusion conditions which comprises: 7. A system as defined in claim 6 in which said lens system comprises a focusing lens to focus paraxial rays to a normal focus point on said common axis prior to divergence to a reflective surface, and an aspheric lens to direct marginal rays behind said normal focus point prior to divergence to a reflective surface. 8. A system for illuminating a minute target with laser energy to achieve uniform illumination resulting in fusion conditions which comprises: 9. A system as defined in claim 8 in which said lens system includes lenses to focus marginal rays at a different focal point than paraxial rays to achieve optimum uniform target illumination. 10. A method of illuminating a minute target with laser energy to achieve uniform illumination resulting in fusion conditions which comprises: 11. A method of illuminating a minute target with laser energy to achieve uniform illumination resulting in fusion conditions which comprises: 12. In an optical system for illuminating a target region, the improvement comprising a pair of concave ellipsoidal reflectors positioned in opposed relation on a system axis to form a target cavity, each said reflector having a central opening on said axis to admit a laser beam, a near first focal point disposed on said axis in substantial coincidence with the near first focal point of the opposing reflector at a target region within said cavity and a remote second focal point disposed on said axis adjacent the said central opening of the opposing reflector. 13. In an optical system of the type for illuminating a target and including means for directing first and second collimated beams of electromagnetic energy generally toward said target and means disposed on a system axis and adapted to focus said collimated beams over the surface area of said target from a direction at all points substantially orthogonal thereto, the improvement wherein said focusing means comprises first and second opposed, centrally apertured reflective means coaxially disposed on said system axis, said first and second reflective means each having a first focus disposed at said target and a second focus disposed in proximity to the said central aperture in the opposing reflective means, and third and fourth means respectively disposed on said system axis externally of said first and second reflective means in the path of a corresponding collimated beam to focus each said collimated beam through a corresponding aperture in the adjacent reflective means substantially to the said second focus of the opposing reflective means.