Rare earth phosphovanadate phosphor and method for producing the same

The invention claimed is: 1. A rare earth phosphovanadate phosphor comprising at least a primary particle in which a linear uneven pattern including a plurality of ridge lines parallel to each other is formed on a surface of the particle. 2. The rare earth phosphovanadate phosphor according to claim 1 , activated with Eu 3+ . 3. The rare earth phosphovanadate phosphor according to claim 1 , which is a particle group in which the primary particles aggregate. 4. The rare earth phosphovanadate phosphor according to claim 1 , wherein the linear uneven pattern on the surface of the primary particle is formed when alkali metal vanadate is removed, wherein the alkali metal vanadate comprises an alkali metal metavanadate. 5. A method for producing a rare earth phosphovanadate phosphor, comprising: forming a mixture of a rare earth phosphovanadate phosphor and an alkali metal vanadate; and removing a substance comprising the alkali metal vanadate from the mixture, wherein the forming step is performed by a process comprising: mixing a rare earth compound, a phosphorous compound, and a vanadium compound in amounts to form the rare earth phosphovanadate phosphor with an alkali metal compound as a flux so that a blended material is formed; and firing the blended material so as to form the mixture, and the alkali metal vanadate comprises an alkali metal metavanadate, and the produced rare earth phosphovanadate phosphor comprises at least a primary particle in which a linear uneven pattern including a plurality of ridge lines parallel to each other is formed on a surface of the particle. 6. The method for producing a rare earth phosphovanadate phosphor according to claim 5 , wherein the alkali metal vanadate is potassium vanadate. 7. The method for producing a rare earth phosphovanadate phosphor according to claim 5 , wherein the mixture of the rare earth phosphovanadate phosphor and the alkali metal vanadate contains no boron. 8. The method for producing a rare earth phosphovanadate phosphor according to claim 5 , wherein a vanadate containing an alkali metal is used as the flux. 9. The method for producing a rare earth phosphovanadate phosphor according to claim 8 , wherein an added amount of the flux is 0.01 moles or more and 0.04 moles or less with respect to one mole of a rare earth phosphovanadate phosphor to be produced. 10. The method for producing a rare earth phosphovanadate phosphor according to claim 5 , wherein silicon oxide is added as an impurity. 11. The method for producing a rare earth phosphovanadate phosphor according to claim 10 , wherein an added amount of silicon oxide is 0.003 moles or more and 0.03 moles or less with respect to one mole of a rare earth phosphovanadate phosphor to be produced. 12. The method for producing a rare earth phosphovanadate phosphor according to claim 5 , wherein a BET value of the rare earth phosphovanadate phosphor formed by the method of claim 5 , measured by a BET fluid process is more than 1.6 m 2 /g and less than 2.5 m 2 /g. 13. The method for producing a rare earth phosphovanadate phosphor according to claim 5 , wherein the removing step comprises forming a suspension comprising a rare earth phosphovanadate phosphor particle group and a metavanadate aqueous solution by water crushing of the mixture resulting from the firing step in water. 14. A method for producing a rare earth phosphovanadate phosphor, comprising: forming a mixture of a rare earth phosphovanadate phosphor and an alkali metal vanadate; and removing an alkali metal compound from the mixture, wherein the resulting rare earth phosphovanadate phosphor comprises a flocculate of primary particles, the primary particles forming the flocculate exhibit a pseudo regular octahedron shape that is a regular octahedron shape as a whole, but in which each edge present at a boundary of each surface is rounded, the alkali metal compound is a vanadate salt of an alkali metal, and the forming comprises: generating the rare earth phosphovanadate phosphor and the alkali metal vanadate separately; and mixing the rare earth phosphovanadate phosphor and the alkali metal vanadate as so to generate the mixture of the rare earth phosphovanadate phosphor and the alkali metal vanadate. 15. A method for producing a rare earth phosphovanadate phosphor, comprising: generating a mixture of a rare earth phosphovanadate phosphor and an alkali metal vanadate; and removing alkali metal vanadate from the mixture by a step comprising water washing of the mixture and extracting of the rare earth phosphovanadate phosphor, wherein the alkali metal vanadate comprises an alkali metal metavanadate, and the produced rare earth phosphovanadate phosphor comprises at least a primary particle in which a linear uneven pattern including a plurality of ridge lines parallel to each other is formed on a surface of the particle. 16. The method for producing a rare earth phosphovanadate phosphor according to claim 15 , wherein the water washing step comprises water crushing of the mixture in water as a solvent. 17. The method for producing a rare earth phosphovanadate phosphor according to claim 15 , wherein both the water washing of the mixture and extracting of the rare earth phosphovanadate phosphor is performed by filtration. 18. The method for producing a rare earth phosphovanadate phosphor according to claim 16 , further comprising a step of crushing the mixture before the water washing treatment. 19. The method for producing a rare earth phosphovanadate phosphor according to claim 15 , wherein the water crushing of the mixture forms a suspension comprising a rare earth phosphovanadate phosphor particle group and a metavanadate aqueous solution.