Gold-coated flat silver particles, gold-coated flat silver particle dispersion, method of manufacturing gold-coated flat silver particles, coating film, and antireflection optical member

What is claimed is: 1 . Gold-coated flat silver particles comprising: flat silver particles; and a gold coating layer, wherein an average thickness of the gold coating layer on principal planes of the particles is 0.1 nm to 2 nm, and a ratio of the average thickness of the gold coating layer on the principal planes of the particles to an average thickness of the gold coating layer on edge surfaces of the particles is 0.02 or higher. 2 . The gold-coated flat silver particles according to claim 1 , wherein the average thickness of the gold coating layer on the principal planes of the particles is 0.7 nm to 1.5 nm, and the ratio of the average thickness of the gold coating layer on the principal planes of the particles to the average thickness of the gold coating layer on the edge surfaces of the particles is 0.02 or higher. 3 . The gold-coated flat silver particles according to claim 1 , wherein an aspect ratio is 2 to 80. 4 . A gold-coated flat silver particle dispersion comprising: the gold-coated flat silver particles according to claim 1 ; and a dispersion medium. 5 . The gold-coated flat silver particle dispersion according to claim 4 , wherein a silver concentration is 2 mmol/L or higher. 6 . The gold-coated flat silver particle dispersion according to claim 4 , further comprising: an organic component in which a solubility product pKsp with a silver ion is 14 or higher and a reduction potential is lower than 700 mV. 7 . A method of manufacturing the gold-coated flat silver particle dispersion according to claim 4 , the method comprising: a flat silver particle manufacturing step; and a gold coating step, wherein the flat silver particle manufacturing step includes a step of preparing a mixed solution including water, a silver salt, a dispersant, and a reducing agent and a step of mixing another silver salt in a solid state with the mixed solution obtained in the step of preparing the mixed solution and is a step of obtaining a flat silver particle dispersion, and the gold coating step is a step of obtaining the gold-coated flat silver particle dispersion by mixing a gold coating solution with the flat silver particle dispersion obtained in the flat silver particle manufacturing step, the gold coating solution including water, a gold salt, and a complexing agent in which a reduction potential of a complex formed using the complexing agent and gold ions is 0.5 V or lower. 8 . The method of manufacturing the gold-coated flat silver particle dispersion according to claim 7 , wherein before the gold coating step, an edge surface adsorbent of the flat silver particles is added to the flat silver particle dispersion obtained in the flat silver particle manufacturing step. 9 . The method of manufacturing the gold-coated flat silver particle dispersion according to claim 7 , wherein in the gold coating step, a molar ratio of an addition amount of the complexing agent in which the reduction potential of the complex formed using the complexing agent and gold ions is 0.5 V or lower to an addition amount of the gold salt is in a range of 2.5 to 10. 10 . The method of manufacturing the gold-coated flat silver particle dispersion according to claim 7 , wherein after the gold coating step, an organic component in which a solubility product pKsp with silver ions is 14 or higher and a reduction potential is lower than 700 mV is added to the gold-coated flat silver particle dispersion. 11 . The method of manufacturing the gold-coated flat silver particle dispersion according to claim 7 , wherein a silver concentration of the gold-coated flat silver particle dispersion is 2 mmol/L or higher. 12 . A coating film comprising: the gold-coated flat silver particles according to claim 1 . 13 . The coating film according to claim 12 , further comprising: an organic component in which a solubility product pKsp with silver ions is 14 or higher and a reduction potential is lower than 700 mV. 14 . An antireflection optical member that prevents incidence light of visible light from being reflected, the antireflection optical member comprising: a laminate structure in which a transparent substrate, a metal fine particle-containing layer that is the coating film according to claim 12 , and a dielectric layer are laminated in this order, wherein principal planes of the gold-coated flat silver particles are aligned in a range of 0° to 30° with respect to a surface of the metal fine particle-containing layer, the gold-coated flat silver particles are arranged in the metal fine particle-containing layer without forming a conduction path, and a thickness of the dielectric layer is set such that, in a case where incidence light is incident from a surface side of the dielectric layer to the laminate structure, reflected light on the surface of the dielectric layer is canceled out by interfering with reflected light at an interface between the dielectric layer and the metal fine particle-containing layer.