Core sampler with impregnation windows and method for stabilization of unconsolidated sediment in core samples

The invention claimed is: 1. A core sampling apparatus comprising: an inner tube configured to collect a core sample by means of a core catcher attached to one end of the core sampling apparatus; and an outer tube co-axially disposed on the outside of the inner tube, wherein the inner tube comprises a plurality of openings to allow resin to flow into the core sample, each opening having a corresponding cover to fully cover the opening, wherein the cover opens outwardly from the inner tube, wherein the cover is attached to the inner tube by means of a metal hinge on one side of the cover, wherein the cover is closed during a sampling operation and the outer tube prevents the cover from opening during the sampling operation, wherein after the inner tube containing the core sample is transported to the surface, the outer tube is separated from the inner tube, and a resin is applied through the plurality of openings to impregnate the core sample, thereby stabilizing unconsolidated sediment in the core sample, and wherein the stabilized core sample is removed via the opening of the inner tube after solidification of the resin. 2. The apparatus of claim 1 , further comprising: a top cap configured to cover a top portion of the outer tube; and a protective ring configured to cover a base of the outer tube, the protective ring replacing the core catcher after the core sample has been collected. 3. The apparatus of claim 1 , wherein the core catcher comprises a plurality of metal membranes configured to collect core sample from a subsurface formation. 4. The apparatus of claim 1 , wherein a length of each of the plurality of openings is approximately 1 centimeter or more. 5. The apparatus of claim 1 , wherein the inner tube further comprises a pump connection, the pump connection configured to be connected to a vacuum pump for facilitating resin impregnation and minimizing undesired air bubbles. 6. The apparatus of claim 1 , wherein the resin comprises at least one of epoxy, vinylester, and polyester. 7. A method for sampling a core, the method comprising: extracting a core sample using a core sampler, the core sampler comprising an inner tube, an outer tube co-axially disposed on the outside of the inner tube, and a core catcher attached to one end of the core sampler; replacing the core catcher with a protective ring configured to cover the base of the outer tube; transporting the inner tube containing the core sample to the surface; impregnating the core sample with a resin by allowing the resin to flow into the core sample through a plurality of openings formed on the inner tube, each opening having a corresponding cover to fully cover the opening, wherein the cover opens outwardly from the inner tube, wherein the cover is attached to the inner tube by means of a metal hinge on one side of the cover, wherein the cover is closed during a sampling operation and the outer tube prevents the cover from opening during the sampling operation; allowing for the resin to cure, thereby stabilizing unconsolidated sediment in the core sample; and removing the stabilized core sample via the opening of the inner tube after solidification of the resin. 8. The method of claim 7 , further comprising: adding a dye to the resin, prior to impregnating, to allow identification of porosity during subsequent petrographic analysis. 9. The method of claim 7 , further comprising: providing a top cap for covering a top portion of the outer tube; and providing a protective ring for covering a base of the outer tube, the protective ring replacing the core catcher after the core sample has been collected. 10. The method of claim 9 , further comprising: providing the top cap with a pump connection; and connecting the pump connection to a vacuum pump for creating a vacuum to ease sampling of the core. 11. The method of claim 7 , wherein the resin comprises at least one of epoxy, vinylester, and polyester. 12. The method of claim 7 , further comprising: providing the core catcher with a plurality of metal membranes configured to collect core sample from a subsurface formation.