Polarization-variable element

The invention claimed is: 1. A polarization-variable element comprising a photochromic layer and a guest host liquid crystal cell, wherein the guest host liquid crystal cell comprises a guest host liquid crystal layer, a first electrode film and a second electrode film on first and second respective sides of the guest host liquid crystal layer, and a first alignment film and a second alignment film formed on sides of the first electrode film and the second electrode film facing the guest host liquid crystal layer, respectively, wherein the guest host liquid crystal layer comprises liquid crystals and an anisotropic dye, the guest host liquid crystal layer is switchable between a horizontal orientation state and a vertical orientation state depending on a voltage application, and light axes of liquid crystal molecules in the horizontal orientation state are parallel to each other, wherein the polarization-variable element further comprises a substrate disposed on a first side of the photochromic layer opposite a second side of the photochromic layer that faces the guest host liquid crystal layer, and the photochromic layer and the first electrode film are bonded via an adhesive layer, wherein the photochromic layer satisfies Equation 1: A−B≥ 50%  [Equation 1] wherein A is a transmittance (%) of the photochromic layer before ultraviolet irradiation at ΔTmax wavelength, B is a transmittance (%) of the photochromic layer after ultraviolet irradiation at ΔTmax wavelength, and the ΔTmax wavelength means a wavelength having a largest difference in transmittance of the photochromic layer before and after ultraviolet irradiation, and wherein the ΔTmax wavelength is in a range of 500 nm to 600 nm. 2. The polarization-variable element according to claim 1 , wherein the photochromic layer comprises a photochromic material that is transmittance-variable depending on ultraviolet irradiation. 3. The polarization-variable element according to claim 1 , wherein the polarization-variable element is switchable between a polarized state having a polarization degree in a range of 45% to 95% and a non-polarized state having a polarization degree of 0% to 10%. 4. The polarization-variable element according to claim 3 , wherein the polarization-variable element has a transmittance of 15% or less in the polarized state and a transmittance of 35% or more in the non-polarized state. 5. The polarization-variable element according to claim 3 , wherein the polarization-variable element has haze of 10% or less in each of the polarized state and the non-polarized state. 6. The polarization-variable element according to claim 3 , wherein the photochromic layer has a transmittance of 60% or less in the polarized state. 7. The polarization-variable element according to claim 3 , wherein the photochromic layer has a transmittance of 80% or more in the non-polarized state. 8. The polarization-variable element according to claim 3 , wherein the liquid crystals and the anisotropic dye are present in a horizontally oriented state in the polarized state. 9. The polarization-variable element according to claim 3 , wherein the liquid crystals and the anisotropic dye are present in a vertically oriented state in the non-polarized state. 10. The polarization-variable element according to claim 1 , wherein a first alignment film and a second alignment film are included on both sides of the guest host liquid crystal layer, and an angle formed between orientation axes of the first alignment film and the second alignment film is 10 degrees or less. 11. The polarization-variable element according to claim 1 , further comprising a base layer disposed on the other side of the photochromic layer. 12. The polarization-variable element according to claim 1 , further comprising an antireflection layer on one side of the guest host liquid crystal layer.