Holographic storage hardware enabled locking

What is claimed is: 1 . A method for holographic storage hardware enabled locking, comprising: directing a first reference beam associated with a first process at a storage location in a holographic data storage medium, wherein the first reference beam is generated with a first laser light source; detecting, with a detector while the first reference beam is directed at the storage location, whether a second reference beam associated with a second process is also directed at the storage location, wherein the second reference beam is generated with a second laser light source; and generating, based on the detecting, a signal indicating whether the storage location is locked. 2 . The method of claim 1 , wherein the second reference beam is initially directed at the storage location while the first reference beam is already directed at the storage location, and wherein the signal indicates that the storage location is locked and results in prevention of the second process from writing data to the storage location while the storage location is locked. 3 . The method of claim 1 , wherein the second reference beam is initially directed at the storage location after the first reference beam is already directed at the storage location, and wherein the signal indicates that the storage location is locked and results in prevention of the second process from reading data from the storage location while the storage location is locked. 4 . The method of claim 1 , and further comprising: generating the first reference beam with the first laser light source; and generating the second reference beam with the second laser light source, wherein the second reference beam is initially directed at the storage location while the first reference beam is already directed at the storage location. 5 . The method of claim 1 , and further comprising: generating, with a gating light source, a gating and data beam associated with the first process, wherein the gating and data beam carries a data pattern to be stored; and directing the gating and data beam at the storage location in the holographic data storage medium to sensitize the storage location for writing, wherein the gating and data beam interacts with the first reference beam to store the data pattern at the storage location. 6 . The method of claim 1 , wherein directing the first reference beam at the storage location in the holographic data storage medium generates a reconstructed data beam that includes a reconstructed data pattern, and wherein the method further comprises: receiving the reconstructed data beam with the detector. 7 . The method of claim 1 , wherein detecting whether the second reference beam associated with the second process is also directed at the storage location includes detecting whether an interference pattern exists resulting from the second reference beam interfering with the first reference beam. 8 . The method of claim 1 , wherein the signal indicates that the storage location is locked, and wherein the method further comprises: providing a notification to the second process that the storage location is locked. 9 . An apparatus for holographic storage hardware enabled locking, comprising: a first laser light source to generate a first reference beam associated with a first process; a mirror to direct the first reference beam at a storage location in a holographic data storage medium; and a detector to detect, while the first reference beam is directed at the storage location, whether a second reference beam associated with a second process is also directed at the storage location, and generate, based on detection of the detector, a signal indicating whether the storage location is locked, wherein the second reference beam is generated with a second laser light source. 10 . The apparatus of claim 9 , wherein the second reference beam is initially directed at the storage location while the first reference beam is already directed at the storage location, and wherein the signal indicates that the storage location is locked and results in prevention of the second process from writing data to the storage location while the storage location is locked. 11 . The apparatus of claim 9 , wherein the second reference beam is initially directed at the storage location after the first reference beam is already directed at the storage location, and wherein the signal indicates that the storage location is locked and results in prevention of the second process from reading data from the storage location while the storage location is locked. 12 . The apparatus of claim 9 , and further comprising: the second laser light source to generate the second reference beam. 13 . The apparatus of claim 9 , and further comprising: a gating light source to generate a gating and data beam associated with the first process, wherein the gating and data beam carries a data pattern to be stored, wherein the gating and data beam is directed at the storage location in the holographic data storage medium to sensitize the storage location for writing, and wherein the gating and data beam interacts with the first reference beam to store the data pattern at the storage location. 14 . The apparatus of claim 9 , wherein directing the first reference beam at the storage location in the holographic data storage medium generates a reconstructed data beam that includes a reconstructed data pattern, and wherein the detector is to receive the reconstructed data beam. 15 . The apparatus of claim 9 , wherein detecting whether the second reference beam associated with the second process is also directed at the storage location includes detecting whether an interference pattern exists resulting from the second reference beam interfering with the first reference beam. 16 . A system for holographic storage hardware enabled locking, comprising: a storage controller to handle read requests and write requests directed to a holographic data storage medium; a gating light source to facilitate writing of data to the holographic data storage medium; a first laser light source to generate a first reference beam associated with a first process; a mirror to direct the first reference beam at a storage location in the holographic data storage medium; and a detector to detect, while the first reference beam is directed at the storage location, whether a second reference beam associated with a second process is also directed at the storage location, and output to the storage controller, based on detection of the detector, a signal indicating whether the storage location is locked, wherein the second reference beam is generated with a second laser light source. 17 . The system of claim 16 , wherein the second reference beam is initially directed at the storage location while the first reference beam is already directed at the storage location, and wherein the signal indicates that the storage location is locked and results in prevention of the second process from writing data to the storage location while the storage location is locked. 18 . The system of claim 16 , wherein the second reference beam is initially directed at the storage location after the first reference beam is already directed at the storage location, and wherein the signal indicates that the storage location is locked and results in prevention of the second process from reading data from the storage location while the storage location is locked. 19 . The system of claim 16 , and further comprising: the second laser l