Heat-reflecting member, and method for manufacturing glass member having heat-reflecting layer included therein

The invention claimed is: 1. A method of manufacturing a glass member with a heat reflective layer, comprising steps of: producing an intermediate glass laminate having a laminated structure in which a siliceous sintered powder layer is formed between an upper quartz glass layer and a lower quartz glass layer; wherein the siliceous sintered powder layer is the heat reflective laver; and cutting out the intermediate glass laminate into a predetermined shape with a laser thereby generating an impermeable layer and a buffer layer simultaneously with the laser cutting at a cut-out end portion of the siliceous sintered powder layer, wherein the impermeable layer is formed at the cut-out end portion by densifying the siliceous sintered powder layer with heat from the laser, wherein the buffer layer is formed adjacent to the impermeable layer, and spaced in a direction away from the cut-out end portion by the impermeable layer, from partially densifying the siliceous sintered powder layer with heat from the laser, and wherein said buffer layer changes in density from the impermeable layer toward the siliceous sintered powder layer. 2. The method of manufacturing a glass member with a heat reflective layer according to claim 1 , comprising: prior to the cutting out of the intermediate glass laminate, heating and firing the siliceous sintered powder layer with a laser at a power enough to keep the sintered powder layer from cutting or with burner flame from a quartz glass layer side on an outer surface along a site of the intermediate glass laminate to be cut out into a predetermined shape, to thereby form a fired site including an intermediate buffer layer or an intermediate buffer layer and an intermediate impermeable layer. 3. The method of manufacturing a glass member with a heat reflective layer according to claim 1 , wherein the buffer layer has a density gradient that decreases in density from the impermeable layer, which has a first density, toward the siliceous sintered powder layer, which has a second density, wherein the first density is higher than the second density. 4. A method of manufacturing a glass member with a heat reflective layer, comprising steps of: producing an intermediate glass laminate having a laminated structure in which a siliceous sintered powder layer is formed between an upper quartz glass layer and a lower quartz glass layer wherein the siliceous sintered powder layer is the heat reflective layer; heating and firing the siliceous sintered powder layer with a laser at a power enough to keep the siliceous sintered powder layer from cutting or with burner flame from a quartz glass layer side on an outer surface along a site of the intermediate glass laminate to be cut out into a predetermined shape, to thereby form a fired site including an intermediate buffer layer or an intermediate buffer layer and an intermediate impermeable layer; and further cutting out a position at which the fired site is formed with a laser so that the intermediate buffer layer and, if applicable, the intermediate impermeable layer are modified, so as to form an end portion structure including a buffer layer and a stronger impermeable layer, wherein said buffer layer changes in density from the impermeable layer toward the siliceous sintered powder layer, wherein the modified impermeable layer is formed at the cut-out end portion by densifying the siliceous sintered powder layer with heat from the laser, wherein the modified buffer layer is formed adjacent to the modified impermeable layer, and spaced in a direction away from the cut-out end portion by the modified impermeable layer by partially densifying the siliceous sintered powder layer.