Electron tube

The invention claimed is: 1. An electron tube comprising: a cylindrical housing in which an insulation surface with an electrical insulation property is located on the inside; and an electrical resistance film covering the insulation surface, wherein the electrical resistance film has a stacked structure of an electrically insulating layer and an electrically conductive layer formed by an atomic layer deposition method. 2. The electron tube according to claim 1 , wherein the electrical resistance film is formed across a substantially entire area of the insulation surface. 3. The electron tube according to claim 1 , wherein on the inside of the housing, an electrical conduction surface with an electrical conduction property is located so as to be continuous to the insulation surface, and wherein the electrical resistance film is formed across a range from the insulation surface to the electrical conduction surface. 4. The electron tube according to claim 3 , wherein the electrical resistance film is formed across a substantially entire area of the insulation surface and the electrical conduction surface. 5. The electron tube according to claim 1 , further comprising: an electrode arranged inside the housing; and an energization portion penetrating the housing to be electrically connected to the electrode, wherein the electrical resistance film is formed on a contact portion between the energization portion and an inner surface of the housing. 6. The electron tube according to claim 1 , further comprising: a photocathode for converting incident light into photoelectrons; and a phosphor screen for receiving the photoelectrons generated in the photocathode, to generate fluorescence. 7. An electron tube comprising: a cylindrical housing in which an insulation surface with an electrical insulation property is located on the inside; and an electrical resistance film covering the insulation surface, wherein the electrical resistance film has a mixed structure of an electrically insulating material and an electrically conductive material formed by an atomic layer deposition method. 8. The electron tube according to claim 7 , wherein the electrical resistance film is formed across a substantially entire area of the insulation surface. 9. The electron tube according to claim 7 , wherein on the inside of the housing, an electrical conduction surface with an electrical conduction property is located so as to be continuous to the insulation surface, and wherein the electrical resistance film is formed across a range from the insulation surface to the electrical conduction surface. 10. The electron tube according to claim 9 , wherein the electrical resistance film is formed across a substantially entire area of the insulation surface and the electrical conduction surface. 11. The electron tube according to claim 7 , further comprising: an electrode arranged inside the housing; and an energization portion penetrating the housing to be electrically connected to the electrode, wherein the electrical resistance film is formed on a contact portion between the energization portion and an inner surface of the housing. 12. The electron tube according to claim 7 , further comprising: a photocathode for converting incident light into photoelectrons; and a phosphor screen for receiving the photoelectrons generated in the photocathode, to generate fluorescence.