X-ray beam generation system with diamond thin film window

The invention claimed is: 1. A system for generating X-ray beams from a liquid target, comprising: a vacuum chamber, wherein the vacuum chamber comprises an X-ray exit window; a thin diamond window assembly, wherein the thin diamond window assembly is positioned within the vacuum chamber and comprises a clamping rim, a high temperature sealing, a diamond sheet, a front metal stiffener, a rear metal stiffener, a front opening, and a rear opening; an electron source, wherein the electron source emits an electron beam towards the thin diamond window assembly, wherein the electron source is positioned within the vacuum chamber and the electron beam is aligned with the thin diamond window assembly; a target material flow system, wherein a molten alloy which is in thermal communication with a temperature control unit of the target material flow system passes into and out of the vacuum chamber along a pipeline of the target material flow system, wherein the molten alloy is a dynamic target material of the target material flow system, wherein the dynamic target material is a lead bismuth eutectic; wherein the thin diamond window assembly is integrated into the target material flow system, wherein the beam of electrons contacts the dynamic target material through a diamond sheet of the thin diamond window assembly; the thin diamond window assembly being angularly positioned to the electron beam, wherein the thin diamond window assembly allows the electron beam to pass through and collide with the dynamic target material to generate an X-ray beam, wherein the angular positioning of the thin diamond window assembly allows the generated X-rays to be emitted towards the X-ray exit window; an X-ray detector/imager, wherein the X-ray detector/imager is positioned externally and adjacent the vacuum chamber; wherein the X-ray detector/imager is positioned perpendicular to a projection path of the electron beam from the electron source; and the X-ray detector/imager being aligned with the X-ray exit window, wherein the electron source, the diamond window, the target material flow system and the X-ray exit window are positioned with respect to each other so that an X-ray beam generated at the thin diamond window assembly passes through the X-ray exit window toward the X-ray detector/imager passing through an imaging subject. 2. The system for generating X-ray beams from a liquid target of claim 1 , wherein the target material flow system comprises a pump, a reservoir, the pipeline, the temperature control unit, and the dynamic target material, wherein the temperature control unit maintains a temperature of the dynamic target material to be above a melting point temperature; the dynamic target material being in fluid motion within the pipeline; the dynamic target material being in thermal communication with the temperature control unit; the reservoir and the pump being in fluid communication through the pipeline; and the reservoir, the pump, and the pipeline being in direct contact with the temperature control unit. 3. The system for generating X-ray beams from a liquid target of claim 2 , wherein the temperature control unit comprises a heating coil, wherein the heating coil is wrapped around the reservoir, the pump, and the pipeline. 4. The system for generating X-ray beams from a liquid target of claim 1 , wherein the diamond sheet being attached to the rear metal stiffener opposite the pipeline of the target material flow system; the front opening centrally traversing into the front metal stiffener; the rear opening centrally traversing into the rear metal stiffener; the front opening being linearly aligned with the rear opening, wherein the front opening and the rear opening create a beam channel for the electron beam to pass through and collide with the dynamic target material; the rear metal stiffener being positioned along an external surface of the pipeline of the target material flow system; and the front metal stiffener, the diamond sheet, and the rear metal stiffener being attached to the external surface of the pipeline with the high temperature sealing and the clamping rim. 5. The system for generating X-ray beams from a liquid target of claim 1 , wherein the thin diamond window assembly further comprises a front countersink hole and a rear countersink hole; the diamond sheet being positioned in between the front metal stiffener and the rear metal stiffener; the front countersink hole centrally traversing into the front metal stiffener; the rear countersink hole centrally traversing into the rear metal stiffener; the front countersink hole being linearly aligned with the rear countersink hole, wherein the front countersink hole and the rear countersink hole create a beam channel for the electron beam; the rear metal stiffener being positioned along an external surface of the pipeline of the target material flow system; and the front metal stiffener, the diamond sheet, and the rear metal stiffener being pressed against the external surface with the high temperature sealing and the clamping rim. 6. The system for generating X-ray beams from a liquid target of claim 1 , wherein a pressure applied by the dynamic target material onto the diamond sheet of the thin diamond window assembly is approximately 0.2 Megapascal (MPa). 7. The system for generating X-ray beams from a liquid target of claim 1 , wherein the electron beam is pulsated with a duty factor to allow the thin diamond window assembly to dissipate heat in between pulses determined by the duty factor.