Element manufacturing method and element manufacturing apparatus

The invention claimed is: 1. An element manufacturing method for forming an element on a substrate, the method comprising the steps of: providing an intermediate product including the substrate and a plurality of protrusions each disposed on the substrate; providing a lid member having a first surface and a second surface present at an opposite side with respect to the first surface, the lid member being provided so that the first surface orients toward the protrusions of the intermediate product; and sealing the intermediate product by pressing a part of the first surface of the lid member against a part of the intermediate product by use of a sealing mechanism abutting the second surface of the lid member, and thereby bringing the part of the intermediate product into close contact with the first surface of the lid member, wherein: the sealing mechanism includes one pair of tensioning members spacedly lined up; in the sealing step, a section of the lid member that is being tensioned between the paired tensioning members is in close contact with the part of the intermediate product; the element manufacturing method comprises an irradiation step in which a section of the lid member that is being tensioned between the paired tensioning members is irradiated with light; and in the irradiation step, the light passes through the section of the lid member that is being tensioned between the paired tensioning members, and reaches the intermediate product. 2. The element manufacturing method according to claim 1 , wherein: the paired tensioning members of the sealing mechanism include one pair of rollers; and in the sealing step, a section of the lid member that is being tensioned between the paired rollers is in close contact with a part of the intermediate product. 3. The element manufacturing method according to claim 2 , wherein: in the irradiation step, the light is guided by an optical system fixed with respect to rotation of the paired rollers, passes through the lid member, and reaches the intermediate product. 4. The element manufacturing method according to claim 1 , wherein: the sealing mechanism further includes an intermediate film disposed between the paired tensioning members and the lid member; and the intermediate film is formed from a material having a coefficient of elasticity that is higher than that of a material constituting the lid member. 5. The element manufacturing method according to claim 1 , wherein: the lid member includes a first film, a second film, and a sealing member disposed between the first film and the second film and functioning to seal, from outside, a space present between the first film and the second film; the space between the first film and the second film is sealed with a gaseous substance in advance; and the sealing step is executed under an environment having a pressure lower than atmospheric pressure. 6. The element manufacturing method according to claim 1 , wherein: the element includes the substrate, a plurality of first electrodes each disposed on the substrate, auxiliary electrodes each disposed between any two of the first electrodes, the protrusions also each disposed between any two of the first electrodes, an organic semiconductor layer disposed on the first electrodes, and a second electrode disposed on the organic semiconductor layer and the auxiliary electrodes; the intermediate product includes the substrate, the first electrodes disposed on the substrate, the auxiliary electrodes and protrusions each disposed between any two of the first electrodes, and the organic semiconductor layer disposed on the first electrodes and the auxiliary electrodes; and the organic semiconductor layer disposed on one of the auxiliary electrodes is removed while the section of the lid member that is being tensioned between the paired tensioning members is in close contact with a part of the intermediate product. 7. An element manufacturing method for forming an element on a substrate, the method comprising the steps of: providing an intermediate product including the substrate and a plurality of protrusions each disposed on the substrate; providing a lid member having a first surface and a second surface present at an opposite side with respect to the first surface, the lid member being provided so that the first surface orients toward the protrusions of the intermediate product; and sealing the intermediate product by pressing a part of the first surface of the lid member against a part of the intermediate product by use of a sealing mechanism abutting the second surface of the lid member, and thereby bringing the part of the intermediate product into close contact with the first surface of the lid member, wherein: the sealing mechanism includes one pair of tensioning members spacedly lined up; in the sealing step, a section of the lid member that is being tensioned between the paired tensioning members is in close contact with the part of the intermediate product; the element manufacturing method comprises an irradiation step in which a section of the lid member that is being tensioned between the paired tensioning members is irradiated with light; and in the irradiation step, the lid member being tensioned between the paired tensioning members is irradiated with the light emitted from a direction of the substrate within the intermediate product. 8. An element manufacturing method for forming an element on a substrate, the method comprising the steps of: providing an intermediate product including the substrate and a plurality of protrusions each disposed on the substrate; providing a lid member having a first surface and a second surface present at an opposite side with respect to the first surface, the lid member being provided so that the first surface orients toward the protrusions of the intermediate product; and sealing the intermediate product by pressing a part of the first surface of the lid member against a part of the intermediate product under a vacuum environment by use of a sealing mechanism abutting the second surface of the lid member, and thereby bringing the part of the intermediate product into close contact with the first surface of the lid member, wherein: the sealing mechanism includes one pair of tensioning members spacedly lined up; and in the sealing step, a section of the lid member that is being tensioned between the paired tensioning members is in close contact with the part of the intermediate product. 9. The element manufacturing method according to claim 8 , wherein: a vapor deposition material is disposed on the first surface of the lid member; a metallic thin film including a magnetic material is disposed between the first surface of the lid member and the vapor deposition material; and in the sealing step, magnetic fields are generated around the lid member or a magnetic body is placed at an opposite side of the intermediate product with respect to the lid member, thereby to generate a magnetic force that draws the lid member toward the intermediate product. 10. The element manufacturing method according to claim 9 , wherein: the sealing mechanism further includes an intermediate film disposed between the paired tensioning members and the lid member; the intermediate film is formed from a material having a coefficient of elasticity that is higher than that of a material constituting the lid member; and the intermediate film and the lid member are configured to be separated from each other and then recovered separately. 11. An element manufacturing method for forming an element on a substrate, the method comprising the steps of: providing an intermediate product including the subs