Prism, prism production method, mold, and sensor chip

The invention claimed is: 1. A prism which is constituted by a dielectric medium and is used for an analysis utilizing surface plasmon, comprising: an incidence surface through which excitation light enters from an outside; a reflection surface on which the excitation light which has entered through the incidence surface is reflected; an emission surface through which the excitation light which has been reflected on the reflection surface exits; and an opposing surface which is opposed to the reflection surface, wherein a metal film is formed on the reflection surface, wherein the opposing surface comprises a sink-mark surface, wherein the sink-mark surface is transparent, wherein a surface roughness Ra of the sink-mark surface is from 0.1 nm to less than 0.5 μm, and wherein the sink-mark surface comprises a curved surface which forms a convexity towards the reflection surface. 2. The prism according to claim 1 , wherein the sink-mark surface is disposed vertically right below an area including an antigen trapping position of the metal film. 3. A method for producing the prism according to claim 1 , comprising: preparing a mold with a certain cavity; injecting a certain resin to fill the cavity; applying a dwell pressure to the resin; and cooling the resin, wherein the mold comprises a transfer area for forming the sink-mark surface, and wherein a surface roughness Ra of the transfer area is from 0.1 nm to less than 0.5 μm. 4. A method for producing the prism according to claim 1 , comprising: preparing a mold with a certain cavity; injecting a certain resin to fill the cavity; applying a dwell pressure to the resin; and cooling the resin, wherein the opposing surface of the mold comprises a first transfer area for forming the sink-mark surface and a second transfer area for forming a non-sink-mark surface between the sink-mark surface and the incidence surface or the emission surface, wherein a surface roughness Ra of the first transfer area is from 0.1 nm to less than 0.5 μm, and wherein a surface roughness Ra of the second transfer area is from 0.5 μm to less than 100 μm. 5. A mold for producing the prism according to claim 1 , comprising: a transfer area for forming the sink-mark surface, wherein a surface roughness Ra of the transfer area is from 0.1 nm to less than 0.5 μm. 6. A mold for producing the prism according to claim 1 , comprising: a first transfer area for forming the sink-mark surface of the opposing surface and a second transfer area for forming a non-sink-mark surface of the opposing surface between the sink-mark surface and the incidence surface or the emission surface, wherein a surface roughness Ra of the first transfer area is from 0.1 nm to less than 0.5 μm, and wherein a surface roughness Ra of the second transfer area is from 0.5 μm to less than 100 μm. 7. A sensor chip, comprising: the prism according to claim 1 ; and a channel forming body in which a channel is formed. 8. The prism according to claim 1 , wherein the metal film is made of Gold. 9. The prism according to claim 8 , wherein the Gold film has a film thickness of from 40 nm to 50 nm. 10. The prism according to claim 9 , wherein the prism is made of a resin material comprising a cycloolefin polymer. 11. The prism according to claim 10 , wherein water absorption of the prism is equal to or less than 0.2%. 12. The prism according to claim 11 , wherein the resin material of the prism has a photoelastic coefficient equal to or less than 80×10 −12 Pa −1 .