Method for producing organic electroluminescent device and film deposition apparatus

The invention claimed is: 1. A method for producing an organic EL device, comprising the steps of: providing an element substrate comprising a substrate that includes an active region and a peripheral region outer to the active region and also comprising an electrical circuit supported by the substrate, the electrical circuit including a plurality of EL elements formed on the active region and a back plane circuit for driving the plurality of organic EL elements, the back plane circuit including a plurality of lead wires each including a terminal on the peripheral region; and forming a thin film encapsulation structure over the plurality of EL elements in the element substrate and on a part of the plurality of lead wires that is on the active region; wherein the step of forming the thin film encapsulation structure includes the steps of: forming a first inorganic barrier layer over the element substrate; condensing a photocurable resin in a liquid-state on the first inorganic barrier layer; irradiating a selected region of the photocurable resin with a laser beam having a wavelength of 400 nm or shorter to cure at least a part of the photocurable resin, thus to form a photocurable resin layer while forming an opening in the photocurable resin layer on each of the plurality of lead wires; ashing a part of a surface of the photocurable resin layer to form an organic barrier layer; and forming a second inorganic barrier layer, covering the organic barrier layer, on the first inorganic barrier layer. 2. The method of claim 1 , wherein in the step of condensing the photocurable resin in the liquid state, the photocurable resin condensed on a flat portion of the first inorganic barrier layer has a thickness of 100 nm or greater and 500 nm or less. 3. The method of claim 1 , wherein the step of forming the organic barrier layer includes the step of generating the laser beam from laser light emitted from at least one semiconductor laser device. 4. The method of claim 1 , wherein the substrate is a flexible substrate. 5. The method of claim 1 , wherein the photocurable resin contains an acrylic monomer. 6. A method for producing an organic EL device, comprising the steps of: providing an element substrate including a substrate and a plurality of organic EL devices arranged on the substrate; and forming a thin film encapsulation structure over the element substrate; wherein the step of forming the thin film encapsulation structure includes the steps of: forming a first inorganic barrier layer over the element substrate; condensing a photocurable resin on the first inorganic barrier layer; irradiating a plurality of selected regions of the photocurable resin with a laser beam to cure at least a part of the photocurable resin, thus to form a photocurable resin layer; removing an uncured part of the photocurable resin; and forming a second inorganic barrier layer, covering the photocurable resin layer remaining on the substrate, on the first inorganic barrier layer, wherein the plurality of regions of the photocurable resin are selected such that an active region of each of the organic EL devices is enclosed by a region where the first inorganic barrier layer and the second inorganic barrier layer are in contact with each other without having an organic barrier layer therebetween. 7. The method of claim 6 , wherein the plurality of regions of the photocurable resin are separated from each other. 8. A film deposition apparatus, comprising: a chamber comprising a stage for supporting a substrate; a material supply device for supplying a vapor-like or mist-like photocurable resin into the chamber; and a light source device for irradiating a plurality of selected regions of the substrate supported by the stage with a laser beam; wherein the light source device includes: at least one semiconductor laser device for emitting the laser beam; and an optical device for adjusting an intensity distribution, on the substrate, of the laser beam emitted from the semiconductor laser device. 9. The apparatus of claim 8 , wherein the optical device includes at least one movable mirror for scanning the plurality of selected regions of the substrate with the laser beam. 10. The apparatus of claim 8 , wherein the light source device includes a plurality of semiconductor laser devices including the at least one semiconductor laser device, and irradiates the plurality of selected regions of the substrate with a plurality of laser beams emitted from the plurality of semiconductor laser devices. 11. The apparatus of claim 10 , wherein the light source device includes a driving device for moving the plurality of semiconductor laser devices with respect to the substrate. 12. The apparatus of claim 8 , wherein the optical device adjusts the intensity distribution such that at least a part of the photocurable resin condensed on the substrate is not cured. 13. The apparatus of claim 8 , wherein the optical device includes a transmissive or reflective spatial light modulation element modulating the intensity distribution.