Abstract: A composite solution for enhancing induced disease resistance of lentinan (LNT) to a plant, a preparation method of the composite solution, and a method for enhancing induced disease resistance of LNT to a plant are provided. The composite solution for enhancing induced disease resistance of LNT to a plant includes: an LNT-containing solution and an SPc-containing solution, where SPc is a dendritic macromolecule functionalized by an amino functional group, and has a structural formula shown in formula I, where n=1 to 100. An LNT/SPc complex is produced in the composite solution. SPc spontaneously combines with LNT through hydrogen bonding, such that an agglomerate structure formed by LNT in an aqueous solution is broken and reduced to a nano-scale particle size, and a spherical particle is produced, which can significantly reduce a contact angle of the LNT aqueous solution, and promote the distribution and diffusion of LNT.

Abstract: A large number of passes of pump light through an active mirror in a solid state disk laser is realized using a pair of coupled imaging systems, where the optical axes of imaging systems are not coincident. Two imaging systems are optically coupled, so that an image of the first imaging system is an object of the second imaging system, and vice versa. An active mirror is disposed at the object or image plane, or at the focal plane of any one of the coupled imaging systems, where the position of the reflected pump beam during the multi-reflection between the first and second imaging systems is substantially unchanged.

Abstract: A large number of passes of pump light through an active mirror in a solid state disk laser is realized using a pair of coupled imaging systems, where the optical axes of imaging systems are not coincident. Two imaging systems are optically coupled, so that an image of the first imaging system is an object of the second imaging system, and vice versa. An active mirror is disposed at the object or image plane, or at the focal plane of any one of the coupled imaging systems, where the position of the reflected pump beam during the multi-reflection between the first and second imaging systems is substantially unchanged.

Abstract: A large number of passes of pump light through an active mirror in a solid state disk laser is realized using a pair of coupled imaging systems, where the optical axes of imaging systems are not coincident. Two imaging systems are optically coupled, so that an image of the first imaging system is an object of the second imaging system, and vice versa. An active mirror is disposed at the object or image plane, or at the focal plane of any one of the coupled imaging systems, where the position of the reflected pump beam during the multi-reflection between the first and second imaging systems is substantially unchanged.

Abstract: A large number of passes of pump light through an active mirror in a solid state disk laser is realized using a pair of coupled imaging systems, where the optical axes of imaging systems are not coincident. Two imaging systems are optically coupled, so that an image of the first imaging system is an object of the second imaging system, and vice versa. An active mirror is disposed at the object or image plane, or at the focal plane of any one of the coupled imaging systems, where the position of the reflected pump beam during the multi-reflection between the first and second imaging systems is substantially unchanged.

Abstract: A device including an active mirror made of thin disk active medium having a pump surface and a mirror surface, means for cooling that contacts with the mirror surface of the active medium dissipating heat from said laser medium, pump beam illuminating the pump surface of said active mirror and a multi-reflection optical system wherein the pump beam is imaged numerous times with the beam structure substantially unchanged during imaging leading to sufficient absorption of the pump beam by said thin disk active medium.

Abstract: Method and apparatus are disclosed for controlling the beam quality from LDA by using external cavity feedback to improve the slow axis divergence of LDA to be close to diffraction limited. The external cavity described in the present invention will only reflect beams in a predetermined direction, and inject the reflected beam back to LDA preferably in the direction with maximum gain and generate laser output in a different direction. The external cavity disclosed will provide injection feedback control for all the emitters in LDA at the same time so that the beam quality of LDA can be improved.

Abstract: A double cladding fiber includes an inner core doped with active species, an inner cladding disposed adjacent said inner core for receiving pumping energy, minimizing local modes in said inner cladding, and transferring said pumping energy to the core. An outer cladding is disposed adjacent the inner cladding. The cross section of said inner cladding has a polygon-like shape with its boundary being a plurality of well-defined arcs, each of the arcs having substantially different arc center for delivering energy with maximum efficiency to the inner core meeting the limitation of: (1−L/r1)(1−L/r2)<0, or (1−L/r1)(1−L/r2)>1; where r1 and r2 is the arc radius of the inner cladding surfaces that are opposite to each other (mirror pair), with the radius of a concave mirror being positive and that of a convex mirror being negative, L is the distance between two mirrors.

Abstract: In the present invention, methods and apparatus for making efficient cladding pumping fiber lasers is disclosed. In particular, new fiber cladding geometry and method of construct fiber lasers and amplifiers using the laser fibers of the current invention are disclosed. The aspects of the present invention will facilitate the realization of high-efficiency and high-power fiber lasers and amplifiers. In the present invention, cladding boundary geometry structures that can prevent the formation of local modes are disclosed. Thus the pumping laser coupling method can be used for the construction of high-efficiency fiber lasers.

Abstract: In the present invention, the methods and apparatus for making efficient laser beam coupling are disclosed. In particular, new structures for shaping and rearranging laser beams from diode laser array are disclosed. Along with the use of unique methods for coupling pumping laser beam into optical fiber or other media, high efficiency can be achieved. These aspects of the present invention will facilitate the realization of high-efficiency and high-power fiber lasers, fiber amplifiers, or other solid state lasers. The beam shaping structures can significantly improve the quality of the beams from diode laser array, and is easy to realize and less demanding in system alignment. Thus, a diode-pumped solid state laser of this invention may comprise a laser medium, a focusing means, a beam source comprising at least one laser diode array, a beam offsetting means, an image optics and a beam redirection means.

Abstract: A double cladding fiber includes an inner core doped with active species, an inner cladding disposed adjacent said inner core for receiving pumping energy, minimizing local modes in said inner cladding, and transferring said pumping energy to the core. An outer cladding is disposed adjacent the inner cladding.

Abstract: In the present invention, the methods and apparatus for making efficient laser beam coupling are disclosed. In particular, new structures for shaping and rearranging laser beams from diode laser array are disclosed. Along with the use of unique methods for coupling pumping laser beam into optical fiber or other media, high efficiency can be achieved. These aspects of the present invention will facilitate the realization of high-efficiency and high-power fiber lasers or other solid state lasers. The beam shaping structures can significantly improve the quality of the beams from diode laser array, and is easy to realize and less demanding in system alignment. Thus, a diode-pumped solid state laser of this invention may comprise a laser medium, a focusing means, a beam source comprising at least one laser diode array, a beam offsetting means, an image optics and a beam redirection means.

Abstract: In the present invention, methods and apparatus for making efficient cladding pumping fiber lasers is disclosed. In particular, new fiber cladding geometry and method of construct fiber lasers and amplifiers using the laser fibers of the current invention are disclosed. The aspects of the present invention will facilitate the realization of high-efficiency and high-power fiber lasers and amplifiers. In the present invention, cladding boundary geometry structures that can prevent the formation of local modes are disclosed. Thus the pumping laser coupling method can be used for the construction of high-efficiency fiber lasers.

Abstract: Method and apparatus are disclosed for beam dividing and shaping, in which the beams from laser diode array are divided in a plurality of sections along the slow axis and the sections of beams are then recombined along their fast axis so that the Lagrange invariant of the resulting beam increased approximately by n-fold in fast axis and reduced approximately by n-fold in slow axis. With the inclusion of above apparatus in diode laser modules, the main objectives of constructing high-efficiency solid state lasers can be achieved.

Abstract: In the present invention, the methods and apparatus for making efficient laser beam coupling are disclosed. In particular, new structures for shaping and rearranging laser beams from diode laser array are disclosed. Along with the use of unique methods for coupling pumping laser beam into optical fiber or other media, high efficiency can be achieved. These aspects of the present invention will facilitate the realization of high-efficiency and high-power fiber lasers, fiber amplifiers, or other solid state lasers. The beam shaping structures can significantly improve the quality of the beams from diode laser array, and is easy to realize and less demanding in system alignment. Thus, a diode-pumped solid state laser of this invention may comprise a laser medium, a focusing means, a beam source comprising at least one laser diode array, a beam offsetting means, an image optics and a beam redirection means.

Abstract: A novel projection lithography camera is disclosed with a large field area and large numerical aperture. The camera comprises only two aspheric mirrors with a two-reflection configuration. The two mirrors are arranged on a common axis of symmetry such that efficient use of extreme ultraviolet radiation can be achieved. In one preferred embodiment, a reduced image of mask is formed by reflection of the two mirrors on a wafer with feature sizes less than 0.05 &mgr;m over a field larger than 22 mm×22 mm with the NA being larger than 0.22. The system is appropriate for EUV steppers.

Abstract: In the present invention, methods and apparatus for making efficient cladding pumping fiber lasers is disclosed. In particular, new fiber cladding geometry and new method of coupling pumping laser into an optical fiber are disclosed. Both aspects of the present invention will facilitate the realization of high-efficiency and high-power fiber lasers. In the present invention, cladding boundary geometry structures that can prevent the formation of local modes are disclosed. Besides the cladding geometry, methods for efficient coupling of diode lasers into a laser fiber for high power injection are also disclosed. Essentially, the new methods make it possible to transmit diode laser beams for a long distance with substantially the same brightness.

Abstract: A photolithography method copies a pattern plane onto a working plane by a rotating imaging system. The pattern plane is parallel to the working plane. At a given instance, the imaging system images a small region of the pattern plane to the working plane. The imaging system rotates around a fixed axis perpendicular to the pattern plane and on each pass copies a circular arc shaped region from the pattern plane to the working plane. Synchronized translation of the pattern plane and working plane in conjunction with rotation of the imaging system allows the entire pattern plane to be copied to the working plane. The photolithography method can achieve high resolution over a large field-of-view with high write speed and can include an autofocus system to account for variation in the flatness of the working plane. This photolithography method can be used in the visible, UV, IR or x-ray wavebands.

Abstract: An optical scanning method is described in which a device essentially comprises a rotational optical system S and a working plane W fed in a predetermined direction. The optical system forms the image of a stationary point A at point B on the working plane W. The image point is scanned along a circular are by rotating the optical system around the rotational axis. In a preferred device, point A lies approximately on the rotational axis and point B lies off the rotational axis. And the circular arc generated by the scanning of point B is in the working plane approximately perpendicular to the rotational axis. A 2-dimensional scanning is completed by the rotation of the optical system around the rotational axis and the translation of the working plane in a predetermined direction, which is synchronized with the rotation of the optical system. When the radiation beam E propagates from point A to B, the device is for information writing in (e.g. lithography) and the working plane is a recording medium.

Abstract: In the present invention, methods and apparatus for making efficient cladding pumping fiber lasers is disclosed. In particular, new fiber cladding geometry and new method of coupling pumping laser into an optical fiber are disclosed. Both aspects of the present invention will facilitate the realization of high-efficiency and high-power fiber lasers. In the present invention, cladding boundary geometry structures that can prevent the formation of local modes are disclosed. Besides the cladding geometry, methods for efficient coupling of diode lasers into a laser fiber for high power injection are also disclosed. Essentially, the new methods make it possible to transmit diode laser beams for a long distance with substantially the same brightness.