Optical layered body, polarizer, method for producing polarizer, image display device, method for producing image display device, and method for improving visibility of image display device

The invention claimed is: 1. An image display device, comprising: a display screen; and a polarizer that is configured to be disposed at a surface of the image display device, the polarizer comprising: a polarizing element; and an optical layered body disposed on the polarizing element, wherein the optical layered body comprises: a light-transmitting substrate having in-plane birefringence; and an optical functional layer disposed on one surface of the light-transmitting substrate, the light-transmitting substrate has a slow axis that is along a direction showing a greater refractive index and a fast axis that is orthogonal to the slow axis, the light-transmitting substrate has a retardation Re represented by a formula: Re=(nx−ny)×d, in a range from 8,000 nm to 25,000 nm, where nx represents a refractive index in the slow axis direction of the light-transmitting substrate, ny represents a refractive index in the fast axis direction of the light-transmitting substrate, and d represents a thickness of the light-transmitting substrate, and the difference between the refractive indexes of the light-transmitting substrate in the slow axis direction and in the fast axis direction as represented by a formula: nx ny is 0.05 or greater, the polarizing element has an absorption axis that extends in a horizontal direction relative to the display screen, the optical layered body and the polarizing element are disposed such that the slow axis of the light-transmitting substrate and the absorption axis of the polarizing element are orthogonal to each other, the polarizer is configured so as to be disposed on the display screen of the image display device such that the slow axis of the light-transmitting substrate is in parallel with a vertical direction of the display screen, and the image display device is designed to be placed in a room in which the device receives S-polarized light that is in parallel with the fast axis of the light-transmitting substrate, wherein the S-polarized light is light reflected on a floor surface, and the S-polarized light is in parallel with the floor surface. 2. The image display device according to claim 1 , wherein the image display device is a VA-mode or IPS-mode liquid crystal display device comprising a white-light-emitting diode as a backlight light source. 3. The image display device according to claim 1 , wherein the optical layered body further comprises a primer layer disposed between the light-transmitting substrate and the optical functional layer, wherein a thickness of the primer layer is in a range from 3 to 30 nm, provided that: the primer layer has a refractive index np that is greater than the refractive index nx in the slow axis direction of the light-transmitting substrate and that is greater than a refractive index nf of the optical functional layer, as represented by a formula: np>nx and np>nf, or the primer layer has a refractive index np that is smaller than the refractive index ny in the fast axis direction of the light-transmitting substrate and that is smaller than the refractive index nf of the optical functional layer, as represented by a formula: np<ny and np<nf. 4. The image display device according to claim 1 , wherein the optical layered body further comprises a primer layer disposed between the light-transmitting substrate and the optical functional layer, wherein a thickness of the primer layer is in a range from 65 to 125 nm, provided that: the primer layer has a refractive index np that is greater than the refractive index nx in the slow axis direction of the light-transmitting substrate but that is smaller than a refractive index nf of the optical functional layer, as represented by a formula: nx<np<nf, or the primer layer has a refractive index np that is smaller than the refractive index ny in the fast axis direction of the light-transmitting substrate but that is greater than the refractive index nf of the optical functional layer, as represented by a formula: nf<np<ny. 5. The image display device according to claim 1 , wherein the optical layered body further comprises a primer layer disposed between the light-transmitting substrate and the optical functional layer, wherein the primer layer has a refractive index np that falls between the refractive index ny in the fast axis direction of the light-transmitting substrate and the refractive index nx in the slow axis direction of the light-transmitting substrate, as represented by a formula: ny<np<nx. 6. A method for producing an image display device, the image display device comprising: a polarizing element; an optical layered body, which comprises a light-transmitting substrate and an optical functional layer disposed on one surface of the light-transmitting substrate; and a display screen, wherein the polarizing element has an absorption axis that extends in a horizontal direction relative to the display screen, the light-transmitting substrate has in-plane birefringence, the light-transmitting substrate has a slow axis that extends along a direction showing a greater refractive index and a fast axis that is orthogonal to the slow axis, the light-transmitting substrate has a retardation Re represented by a formula: Re=(nx−ny)×d, in a range from 8,000 nm to 25,000 nm, where nx represents a refractive index in the slow axis direction of the light-transmitting substrate, ny represents a refractive index in the fast axis direction of the light-transmitting substrate, and d represents a thickness of the light-transmitting substrate, the difference between the refractive indexes of the light-transmitting substrate in the slow axis direction and in the fast axis direction, as represented by a formula: nx−ny is 0.05 or greater, and the image display device is designed to be placed in a room in which the device receives S-polarized light that is in parallel with the fast axis of the light-transmitting substrate, wherein the S-polarized light is light reflected on a floor surface, and the S-polarized light is in parallel with the floor surface, and the method comprising: disposing the optical layered body such that the slow axis of the light-transmitting substrate is in parallel with a vertical direction of the display screen of the image display device. 7. A method for improving visibility of an image display device, the image display device comprising: a polarizing element; an optical layered body, which comprises a light-transmitting substrate and an optical functional layer disposed on one surface of the light-transmitting substrate; and a display screen, wherein the polarizing element has an absorption axis that extends in a horizontal direction relative to the display screen, the light-transmitting substrate has in-plane birefringence, the light-transmitting substrate has a slow axis that extends along a direction showing a greater refractive index and a fast axis that is orthogonal to the slow axis, the light-transmitting substrate has a retardation Re represented by a formula: Re=(nx−ny)×d, in a range from 8,000 nm to 25,000 nm, where nx represents a refractive index in the slow axis direction of the light-transmitting substrate, ny represents a refractive index in the fast axis direction of the light-transmitting substrate, and d represents a thickness of the light-transmitting substrate, the difference between the refractive indexes of the light-transmitting substrate in the slow axis direction and in the fast axis direction, as represented by a formula: nx−ny is 0.05 or greater, and the image display device is designed to be placed in a room in which the device receives S-polarized light that is in parallel with the fast axis of the light-transmitting substrate, wherein the S-polarized light is light reflected o