Optical layered body having specified average roughness and surface hardness

The invention claimed is: 1. An optical layered body comprising: a light-transmitting substrate; and an antiglare layer and a low refractive index layer disposed in the stated order on one surface of the light-transmitting substrate, wherein the low refractive index layer has an arithmetic average roughness Ra of projections and depressions of 0.7 nm to 1.5 nm and a ten-point average roughness Rz of the projections and depressions of 9.5 nm to 35 nm, where the Ra and the Rz are measured in any 5-μm square region of a surface of the low refractive index layer, and wherein the surface of the low refractive index layer has a hardness of 440 MPa or more and 1600 MPa or less as measured by a nanoindentation method at a penetration depth of 30 nm. 2. The optical layered body according to claim 1 , wherein the surface of the low refractive index layer has a water contact angle of 102° or less. 3. The optical layered body according to claim 1 , wherein the low refractive index layer contains hollow silica fine particles. 4. A polarizing plate comprising: a polarizing element; and the optical layered body according to claim 1 , on a surface of the polarizing element. 5. A display panel comprising the optical layered body according to claim 1 , or a polarizing plate comprising: a polarizing element; and the optical layered body according to claim 1 on a surface of the polarizing element. 6. An image display device comprising the optical layered body according to claim 1 , or a polarizing plate comprising: a polarizing element; and the optical layered body according to claim 1 on a surface of the polarizing element. 7. An optical layered body comprising: a light-transmitting substrate; and an antiglare layer and a low refractive index layer disposed in the stated order on one surface of the light-transmitting substrate, wherein the low refractive index layer has an arithmetic average roughness Ra of projections and depressions of 0.7 nm to 1.5 nm and a ten-point average roughness Rz of the projections and depressions of 9.5 nm to 30 nm, where the Ra and the Rz are measured in any 5-μm square region of a surface of the low refractive index layer, wherein a hardness of the surface of the low refractive index layer measured by a nanoindentation method at an indenter penetration of 300 nm is higher than a hardness measured by the nanoindentation method at an indenter penetration of 30 nm, and wherein the lower limit of the hardness measured by the nanoindentation method at an indenter penetration of 300 nm is 490 MPa and the upper limit thereof is 580 MPa, and the lower limit of the hardness measured by the nanoindentation method at an indenter penetration of 30 nm is 470 MPa and the upper limit thereof is 560 MPa.