Optical glass, glass material for press molding, optical element, method for producing glass material for press molding, and method for producing optical element

The invention claimed is: 1. An optical glass comprising P 5+ , Al 3+ , alkali metal ions, and alkaline earth metal ions as cationic components and O 2− and F − as anionic components, wherein a content of P 5+ is 20 to 45 cationic %, a content of Al 3+ is 16 to 30 cationic %, a total content of R + of the alkali metal ions exceeds 0 cationic % and is 12 cationic % or less, a total content of R 2+ of the alkaline earth metal ions is 20 cationic % or more, a content of Rb + is 0 to 3 cationic %, a content of Cs + is 0 to 3 cationic %, a content of Zn 2+ is 0 to 3 cationic %, a content of F − of 40 anionic % or less, a mole ratio (R + /P 5+ ) of the total content R + of the alkali metal ions to the content of P 5+ is 0.070 to 0.50, and the optical glass has an abrasion factor FA of 420 or higher, a fragility index value B of 4000 μm −1/2 or lower, and an Abbe number νd of 70 or lower. 2. The optical glass according to claim 1 , wherein the content of F − is 18 to 40 anionic %, and a content of O 2− is 60 to 82 anionic %. 3. The optical glass according to claim 1 , wherein a mole ratio (O 2− /P 5+ ) of a content of O 2− to the content of P 5+ is 3.5 or higher. 4. The optical glass according to claim 1 , wherein a mole ratio (Li + /R + ) of a content of Li + to the total content R + of the alkali metal ions exceeds 0. 5. The optical glass according to claim 1 , wherein a mole ratio (R 2+ /P 5+ ) of the total content R 2+ of the alkaline earth metal ions to the content of P 5+ is 0.7 to 1.4. 6. The optical glass according to claim 1 , wherein the optical glass has a glass transition temperature of 580° C. or lower. 7. The optical glass according to claim 1 , wherein the optical glass does not have a crystallization peak temperature Tc, or the optical glass has a crystallization peak temperature Tc, and the difference (Tc−Tg) between the crystallization peak temperature Tc and a glass transition temperature Tg is 80° C. or more. 8. The optical glass according to claim 1 , wherein the optical glass has a liquidus temperature of 850° C. or lower. 9. The optical glass according to claim 1 , wherein the optical glass has a deviation ΔPg,F of a partial dispersion ratio Pg,F of 0.0158 or more. 10. The optical glass according to claim 1 , wherein the optical glass is to be subjected to a polishing process. 11. A glass material for press molding, comprising the optical glass according to claim 1 . 12. An optical element blank comprising the optical glass according to claim 1 . 13. An optical element comprising the optical glass according to claim 1 . 14. A method for producing a glass material for press molding, comprising a step of processing a molded glass article comprising the optical glass according to claim 1 . 15. A method for producing an optical element, comprising a step of processing a molded glass article comprising the optical glass according to claim 1 . 16. An optical glass comprising: P 5+ , Al 3+ , alkali metal ions, and alkaline earth metal ions as cationic components; and O 2− and F − as anionic components, wherein a content of P 5+ is 20 to 45 cationic %, a content of Al 3+ is 16 to 30 cationic %, a total content R + of the alkali metal ions exceeds 0 cationic % and is 12 cationic % or less, a total content R 2+ of the alkaline earth metal ions is 20 cationic % or more, a content of Rb + is 0 to 3 cationic %, a content of Cs + is 0 to 3 cationic %, a content of Zn 2+ is 0 to 3 cationic %, a content of F − is 18 to 40 anionic %, a content of O 2− is 60 to 82 anionic %, a mole ratio (R + /P 5+ ) of the total content R + of the alkali metal ions to the content of P 5+ is 0.070 to 0.50, a mole ratio (O 2− /P 5+ ) of the content of O 2− to the content of P 5+ is 3.5 or higher, and the optical glass has an Abbe number νd of 70 or lower.