Phosphor, light-emitting device, illumination device and image display device

The invention claimed is: 1. A phosphor including a crystalline phase which has a composition represented by Formula [1] below, and having peaks in regions 1 to 5 shown below in a powder X-ray diffraction pattern measured using CuKα rays (1.5418 Å): A x D y Mn z F w   [1] (in Formula [1], element A represents one or more elements selected from the group consisting of Li, Na, K, Rb, and Cs, element D represents two or more elements selected from the group consisting of Si, Ge, and Ti, and x, y, z, and w each independently are values satisfying formulas below: 1.5≤ x≤ 2.5, 0.5≤ y< 1, y+z= 1, 5.0≤ w≤ 7.0), 20.7°≤2θ≤21.0°,  Region 1: 26.1°≤2θ≤26.7°,  Region 2: 34.6°≤2θ≤35.6°,  Region 3: 38.3°≤2θ≤39.4°, and  Region 4: 49.6°≤2θ≤50.7°.  Region 5: 2. The phosphor according to claim 1 , wherein lattice constants a and b of the crystalline phase are 8.88 Å or more and 9.19 Å or less and a lattice constant c is 5.06 Å or more and 5.12 Å or less. 3. The phosphor according to claim 1 , wherein the element A is Na. 4. The phosphor according to claim 1 , wherein the element D is Si and Ti. 5. The phosphor according to claim 1 , which has an emission peak wavelength in a range of 600 nm or more and 650 nm or less when irradiated with excitation light having a wavelength of 350 nm or more and 460 nm or less. 6. The phosphor according to claim 1 , wherein emission peak intensities under irradiation with excitation light having a wavelength of 350 nm or more and 460 nm or less satisfy Formula (1) below: 0.6≤ I EP1 /I EP2   (1) (in Formula (1) I EP1 represents an emission peak intensity at 615 nm to 620 nm, I EP2 represents an emission peak intensity at 625 nm to 630 nm). 7. The phosphor according to claim 1 , wherein where a maximum value of an excitation intensity in a wavelength region of 350 nm or more and 550 nm or less in an excitation spectrum is 1, an excitation intensity I G at a wavelength of 500 nm satisfies Formula (2) below: 0.400≤ I G ≤0.520  (2). 8. A light-emitting device comprising a first light emitting body and a second light emitting body, which emits visible light under irradiation with light from the first light emitting body, wherein the second light emitting body includes the phosphor according to claim 1 . 9. An illumination device comprising the light-emitting device according to claim 8 as a light source. 10. An image display device comprising the light-emitting device according to claim 8 as a light source. 11. A phosphor including a crystalline phase which has a composition represented by Formula [1] below, wherein a crystal system of the crystalline phase is a hexagonal system and a unit cell volume calculated from a lattice constant is 344.0 Å 3 or more and 375.0 Å 3 or less: A x D y Mn z F w   [1] (in Formula [1], element A represents one or more elements selected from the group consisting of Li, Na, K, Rb, and Cs, element D represents two or more elements selected from the group consisting of Si, Ge, and Ti, and x, y, z, and w each independently are values satisfying formulas below: 1.5≤ x≤ 2.5, 0.5≤ y< 1, y+z= 1, 5.0≤ w≤ 7.0). 12. The phosphor according to claim 11 , wherein lattice constants a and b of the crystalline phase are 8.88 Å or more and 9.19 Å or less and a lattice constant c is 5.06 Å or more and 5.12 Å or less. 13. The phosphor according to claim 11 , which has an emission peak wavelength in a range of 600 nm or more and 650 nm or less when irradiated with excitation light having a wavelength of 350 nm or more and 460 nm or less. 14. The phosphor according to claim 11 , wherein emission peak intensities under irradiation with excitation light having a wavelength of 350 nm or more and 460 nm or less satisfy Formula (1) below: 0.6≤ I EP1 /I EP2   (1) (in Formula (1) I EP1 represents an emission peak intensity at 615 nm to 620 nm, I EP2 represents an emission peak intensity at 625 nm to 630 nm). 15. A light-emitting device comprising a first light emitting body and a second light emitting body, which emits visible light under irradiation with light from the first light emitting body, wherein the second light emitting body includes the phosphor according to claim 11 . 16. A phosphor including a crystalline phase which has a composition represented by Formula [1] below, wherein a ratio (I N /I max ) of an intensity I N of a peak present at 2θ=32° to 33° in a powder X-ray diffraction pattern and a strongest peak intensity I max in a powder X-ray diffraction pattern measured using CuKα rays (1.5418 Å) is 0.05 or less: A x D y Mn z F w   [1] (in Formula [1], element A represents one or more elements selected from the group consisting of Li, Na, K, Rb, and Cs, element D represents two or more elements selected from the group consisting of Si, Ge, and Ti, and x, y, z, and w each independently are values satisfying formulas below: 1.5≤ x≤ 2.5, 0.5≤ y< 1, y+z= 1, 5.0≤ w≤ 7.0). 17. The phosphor according to claim 16 , wherein lattice constants a and b of the crystalline phase are 8.88 Å or more and 9.19 Å or less and a lattice constant c is 5.06 Å or more and 5.12 Å or less. 18. The phosphor according to claim 16 , which has an emission peak wavelength in a range of 600 nm or more and 650 nm or less when irradiated with excitation light having a wavelength of 350 nm or more and 460 nm or less. 19. The phosphor according to claim 16 , wherein emission peak intensities under irradiation with excitation light having a wavelength of 350 nm or more and 460 nm or less satisfy Formula (1) below: 0.6≤ I EP1 /I EP2   (1) (in Formula (1) I EP1 represents an emission peak intensity at 615 nm to 620 nm, I EP2 represents an emission peak intensity at 625 nm to 630 nm). 20. A light-emitting device comprising a first light emitting body and a second light emitting body, which emits visible light under irradiation with light from the first light emitting body, wherein the second light emitting body includes the phosphor according to claim 16 .