Method of manufacturing treated sheet and method of manufacturing resin multilayer substrate

What is claimed is: 1. A method of manufacturing a resin multilayer substrate, the method comprising: preparing a resin layer composite including a resin sheet, a thermoplastic resin layer supported on one surface of the resin sheet, and a conductive pattern disposed on a surface of the thermoplastic resin layer opposite to the resin sheet; applying a dispersion liquid including a powdery thermoplastic resin raw material onto a surface of the thermoplastic resin layer opposite to the resin sheet so as to cover the conductive pattern; fusing the thermoplastic resin raw material to the thermoplastic resin layer by irradiating, with light from a flash lamp, a coating of the thermoplastic resin raw material formed in the applying step; removing the resin sheet from the resin layer composite after the fusing step; stacking another resin layer on a surface of the resin layer composite subjected to the step of removing the resin sheet, the surface being located at a side at which the thermoplastic resin raw material is fused; and integrating a stack including the resin layer composite and the other resin layer by applying heat and pressure to the stack; wherein the thermoplastic resin raw material has a melting point higher than a glass transition point of a resin that is a primary material of the resin sheet; and a portion of the dispersion liquid including the powdery thermoplastic resin raw material that covers the conductive pattern is irradiated with light from the flash lamp in the step of fusing the thermoplastic resin raw material to the thermoplastic resin layer. 2. The method according to claim 1 , wherein a primary material of the thermoplastic resin raw material is identical or substantially identical to a primary material of the thermoplastic resin layer. 3. The method according to claim 1 , wherein a primary material of the thermoplastic resin raw material includes a liquid crystal polymer. 4. The method according to claim 3 , wherein the powdery thermoplastic resin raw material includes a fibrillated powder. 5. The method according to claim 1 , wherein the resin that is the primary material of the resin sheet layer is polyethylene terephthalate. 6. The method according to claim 1 , wherein the light from the flash lamp is a pulsed light. 7. The method according to claim 1 , wherein a light pulse width of the flash lamp during irradiation is about 3 milliseconds. 8. The method according to claim 1 , wherein the conductive pattern is formed of a copper foil. 9. The method according to claim 1 , wherein a primary material of the another resin layer includes a liquid crystal polymer. 10. A method of manufacturing a resin multilayer substrate, the method comprising: preparing a resin layer composite including a resin sheet, a thermoplastic resin layer supported on one surface of the resin sheet, and a conductive pattern disposed on a surface of the thermoplastic resin layer opposite to the resin sheet; applying a dispersion liquid including a powdery thermoplastic resin raw material onto a surface of the thermoplastic resin layer opposite to the resin sheet so as to cover the conductive pattern; fusing the thermoplastic resin raw material to the thermoplastic resin layer by irradiating, with light from a flash lamp, a coating of the thermoplastic resin raw material formed in the applying step; removing the resin sheet from the resin layer composite after the fusing step; stacking another resin layer on a surface of the resin layer composite subjected to the step of removing the resin sheet, the surface being located at a side at which the thermoplastic resin raw material is fused; and integrating a stack including the resin layer composite and the other resin layer by applying heat and pressure to the stack; wherein the thermoplastic resin raw material has a melting point higher than a glass transition point of a resin that is a primary material of the resin sheet; and the thermoplastic resin raw material covers the conductive pattern after the fusing step.