Load bearing member including lateral layer

What is claimed is: 1. A load bearing member for a lifting and/or hoisting system comprising: a plurality of tension members arranged along a width of the load bearing member, each tension member including: a plurality of load carrying fibers arranged to extend in a direction parallel to a length of the load bearing member; and a matrix material in which the plurality of load carrying fibers are arranged; a lateral layer; and a jacket material at least partially encapsulating the plurality of tension members; wherein the lateral layer is secured to a tension member of the plurality of tension members; wherein the load bearing member includes a traction side configured to contact a traction sheave, and a back side opposite the traction side, the jacket material defining both the traction side and the back side; wherein: at a first tension member of the plurality of tension members, the lateral layer is disposed only at a side of the first tension member closest to the traction side; and at a second tension member of the plurality of tension members, the lateral layer is disposed only at a side of the second tension member closest to the back side. 2. The load bearing member of claim 1 , wherein the lateral layer is a monolithic lateral layer. 3. The load bearing member of claim 1 , wherein the plurality of load carrying fibers comprise one or more of carbon, glass, aramid, nylon, polyester, metallic or polymer fibers. 4. The load bearing member of claim 1 , wherein the lateral layer extends between two or more tension members of the plurality of tension members. 5. The load bearing member of claim 1 , wherein the lateral layer includes features to improve one or more of adhesion of the jacket material to the plurality of tension members, fire resistance, traction performance or wear resistance. 6. The load bearing member of claim 1 , wherein the load bearing member is a belt for an elevator system. 7. An elevator system, comprising: a hoistway; a drive machine having a traction sheave coupled thereto; an elevator car movable within the hoistway; a counterweight movable within the hoistway; a load bearing member connecting the elevator car and the counterweight, the load bearing member being arranged in contact with the traction sheave such that operation of the drive machine moves the elevator car between a plurality of landings, the load bearing member including: a plurality of tension members arranged along a width of the load bearing member, each tension member including: a plurality of load carrying fibers arranged to extend in a direction parallel to a length of the load bearing member; and a matrix material in which the plurality of load carrying fibers are arranged; a lateral layer; and a jacket material at least partially encapsulating the plurality of tension members; wherein the lateral layer is secured to a tension member of the plurality of tension members; wherein the load bearing member includes a traction side in contact with the traction sheave, and a back side opposite the traction side, the jacket material defining both the traction side and the back side; wherein: at a first tension member of the plurality of tension members, the lateral layer is disposed only at a side of the first tension member closest to the traction side; and at a second tension member of the plurality of tension members, the lateral layer is disposed only at a side of the second tension member closest to the back side. 8. The elevator system of claim 7 , wherein the lateral layer extends between two or more tension members of the plurality of tension members. 9. The elevator system of claim 7 , wherein the lateral layer is a monolithic lateral layer. 10. The elevator system of claim 7 , wherein the plurality of load carrying fibers comprise one or more of carbon, glass, aramid, nylon, polyester, metallic, or polymer fibers. 11. The elevator system of claim 7 , wherein the lateral layer includes features to improve one or more of adhesion of the jacket material to the plurality of tension members, fire resistance, traction performance or wear resistance. 12. The load bearing member of claim 1 wherein the lateral layer is secured to a tension member of the plurality of tension members via cure of the matrix material.