Eutectic based continuous thermal sensing element including fiber wrapped center conductor

The invention claimed is: 1. A eutectic sensing element, comprises: an electrically conductive core extending along a first axis to define a length; and an insulating fiber layer disposed on an external surface of the electrically conductive core, the insulating fiber layer including a strand that extends along the length of the electrically conductive core, wherein the electrically conductive core is coated with a eutectic material formulated to provide desirable thermal response characteristics, and the strand includes a plurality of fiber segments that define a plurality of gaps between each fiber segment, wherein a gap length of each gap controls a delay of a time constant of the eutectic sensing element. 2. The eutectic sensing element of claim 1 , wherein a number of segments among the plurality of fiber segments controls insulating performance of the eutectic sensing element. 3. The eutectic sensing element of claim 2 , wherein the strand comprises ceramic. 4. The eutectic sensing element of claim 2 , wherein the strand comprises glass. 5. The eutectic sensing element of claim 2 , further comprising a sheath surrounding the electrically conductive core, the insulating fiber layer interposed between the electrically conductive core and the sheath. 6. A method of forming a eutectic sensing element, the method comprising: coupling a first fiber end of an insulating fiber strand to a first core end of an electrically conductive core; wrapping the insulating fiber strand along a length of the electrically conductive core; and coupling a second end of the insulating fiber to a second core end of the electrically conductive core such that the insulating fiber forms a spiral-shaped insulating fiber layer; wherein the strand includes a plurality of fiber segments that define a plurality of gaps between each fiber segment, and wherein a gap length of each gap controls a delay of a time constant of the eutectic sensing element. 7. The method of claim 6 , further comprising adjusting the insulating performance of the eutectic sensing element based on a number of segments among the plurality of fiber segments. 8. The method of claim 7 , further comprising forming the strand from ceramic. 9. The method of claim 7 , further comprising forming the strand from glass. 10. The method of claim 7 , further comprising coating the electrically conductive core with a eutectic material and disposing a sheath around the electrically conductive core such that the insulating fiber layer is interposed between the electrically conductive core and the sheath.