Electrically Conductive Fiber Optic Slickline For Coiled Tubing Operations

We claim: 1 . A downhole assembly for deployment in a well at an oilfield, the assembly comprising: a downhole tool for performing an application in the well; and an electrically conductive fiber optic slickline coupled to said tool in the well and to surface equipment at the oilfield, said slickline having a core comprising: a fiber optic thread disposed in a filler matrix and to support communication between said tool and the equipment; and an electrically conductive member circumferentially about said thread and matrix for power transmission from the equipment to said tool during the application. 2 . The assembly of claim 1 wherein the downhole tool is a coiled tubing application tool, the assembly further comprising coiled tubing running from the oilfield and coupled to the tool, said slickline disposed within a fluid flow path of the coiled tubing. 3 . The assembly of claim 1 wherein the downhole tool is a logging tool. 4 . A method of performing a wellbore operation in a well, the method comprising: providing a coiled tubing; running an electrically conductive fiber optic slickline through the coiled tubing; performing the wellbore operation; communicating through the well over a fiber optic thread in a core of the fiber optic slickline; and transmitting one of power and backup communications through the well over an electrically conductive member in the core circumferentially disposed relative the fiber optic thread. 5 . The method of claim 4 wherein the electrically conductive member is disposed circumferentially about said fiber optic thread. 6 . The method of claim 5 wherein the electrically conductive member comprises one of split shell halves and a plurality of wires about said fiber optic thread. 7 . The method of claim 5 wherein the fiber optic thread is one of a plurality of fiber optic threads in a bundle and wherein said electrically conductive member is disposed circumferentially about the bundle. 8 . The method of claim 5 wherein the fiber optic thread is one of a plurality of fiber optic threads in a bundle and the electrically conductive member is one of a plurality of electrically conductive members each circumferentially about a thread of the bundle. 9 . The method of claim 4 further comprising cohesively integrating a filler material about the fiber optic thread to substantially eliminate void space thereat prior to said running of the electrically conductive fiber optic slickline through the coiled tubing. 10 . The method of claim 4 further comprising enhancing one of slickline stability for assembly thereof and hydrogen absorption in the well by incorporating a glass yarn member into the core prior to said running of the electrically conductive fiber optic slickline through the coiled tubing. 11 . The method of claim 4 further comprising providing outer layering over the core prior to said running of the electrically conductive fiber optic slickline through the coiled tubing, the outer layering being a structurally cohesive layering of one of a synthetic fiber layer, a foamed polymer and cladding. 12 . The method of claim 11 wherein the synthetic fiber layer is one of a para-aramid fiber, carbon, epoxy glass and an aromatic polyester. 13 . The method of claim 11 wherein the foamed polymer is fluorinated ethylene propylene to provide one of thermal compensation and compressive absorption. 14 . The method of claim 11 wherein the cladding is an austenitic nickel-chromium-based superalloy. 15 . The method of claim 4 wherein performing comprises performing at least one of a coiled tubing operation, a fluid pumping operation, a fracturing operation, an acidizing operation, a drilling operation, obtaining DTS measurements, obtaining DVS measurments, obtaining DSS measurements and obtaining DPS measurements and wherein communicating comprises communicating data related to the wellbore operation. 16 . The method of claim 4 further comprising attaching a tool to the coiled tubing, wherein performing comprises performing the wellbore operation with the tool and wherein communicating comprising communicating data related to the tool operation. 17 . An electrically conductive fiber optic slickline for deployment in a well, the slickline having a core with outer layering thereover, the core comprising: a fiber optic thread to support communication through the well; an electrically conductive member adjacent said thread for power transmission through the well; and a substantially void-free filler matrix to accommodate said fiber optic thread and said electrically conductive member. 18 . The electrically conductive fiber optic slickline of claim 17 wherein said electrically conductive member is of copper split shell halves. 19 . The electrically conductive fiber optic slickline of claim 17 further comprising a glass yarn member accommodated by said filler matrix. 20 . The electrically conductive fiber optic slickline of claim 17 wherein the outer layering comprises one of a synthetic fiber layer, a foamed polymer and cladding.