Tight-buffered optical fiber having improved fiber access

What is claimed is: 1. A buffered optical fiber comprising: an optical fiber comprising: a glass core; a cladding layer surrounding the glass core; at least one coating layer surrounding the cladding layer, wherein the glass core, the cladding layer, and the at least one coating layer collectively comprise a coated optical fiber; and a buffer jacket outer layer disposed directly against and surrounding an outer surface of the coated optical fiber to comprise a tight-buffered optical fiber, wherein the buffer jacket outer layer comprises a smooth outer surface, an elastic modulus in the range of 20 MPa to 90 MPa, an elongation percentage in the range of substantially 20 percent to substantially 80 percent, and tensile strength in the range of substantially 1 MPa to substantially 15 MPa; wherein the buffer jacket outer layer comprises an outer wall of the buffered optical fiber and wherein the coated optical fiber is configured to be torn through the outer wall of the buffer jacket outer layer. 2. The buffered optical fiber of claim 1 , wherein the buffer jacket outer layer is constructed of a buffer jacket material comprising polyurethane acrylate. 3. The buffered optical fiber of claim 1 , wherein the coated optical fiber is configured to be torn through the outer wall of the buffer jacket outer layer with a peeling force in the range of substantially 5 grams to substantially 50 grams. 4. The buffered optical fiber of claim 1 , wherein the buffer jacket outer layer comprises an elongation percentage in a range of substantially 40 percent to substantially 60 percent and an elastic modulus in a range of substantially 50 MPa to substantially 70 MPa. 5. The buffered optical fiber of claim 1 , wherein the buffer jacket outer layer comprises an elongation percentage in a range of substantially 45 percent to substantially 55 percent. 6. A buffered optical fiber comprising: an optical fiber comprising: a glass core; a cladding layer surrounding the glass core; and at least one coating layer surrounding the cladding layer, wherein the glass core, the cladding layer, and the at least one coating layer collectively comprise a coated optical fiber; and a buffer jacket outer layer disposed directly against and surrounding an outer surface of the coated optical fiber to comprise a tight-buffered optical fiber, wherein the buffer jacket outer layer comprises a smooth outer surface, a tensile strength in the range of substantially 1 MPa to substantially 15 MPa, an elongation percentage in the range of substantially 20 percent to substantially 80 percent, and an elastic modulus in the range of substantially 30 MPa to substantially 80 MPa; wherein the buffer jacket outer layer comprises an outer wall of the buffered optical fiber and wherein the coated optical fiber is configured to be torn through the outer wall of the buffer jacket outer layer. 7. The buffered optical fiber of claim 6 , wherein the tensile strength for the buffer jacket outer layer is substantially 6 MPA. 8. The buffered optical fiber of claim 6 , wherein the coated optical fiber is configured to be torn through the buffer jacket outer layer with a peeling force in the range of substantially 5 grams to substantially 50 grams.