Phosphor powder and light emitting device

The invention claimed is: 1. A phosphor powder comprising an inorganic compound in which Eu as an activator is solid-soluted in a crystal represented by Ba 26 Si 51 O 2 N 84 or in an inorganic crystal having the same crystal structure as the crystal represented by Ba 26 Si 51 O 2 N 84 , wherein D50 is equal to or more than 1 μm and equal to or less than 50 μm, the D50 is defined as a particle size at which a cumulative value is 50% in a volume frequency particle size distribution curve of the phosphor powder measured by a laser diffraction scattering method using a small amount of the phosphor powder injected to an aqueous solution to which 0.05% by weight of sodium hexametaphosphate added as a dispersant, and performed of a dispersing treatment with a horn-type ultrasound homogenizer to measure the particle size distribution, wherein in an emission spectrum obtained by irradiating the phosphor powder with excitation light having a wavelength of 450 nm, when a luminescence intensity at a peak wavelength in a range of equal to or more than 750 nm and equal to or less than 950 nm is P0, and when a luminescence intensity at a peak wavelength in a range of equal to or more than 520 nm and equal to or less than 600 nm is P1, 0.01≤P1/P0≤0.12 is satisfied by P0 and P1. 2. The phosphor powder according to claim 1 , wherein in the emission spectrum, a half-width of an emission spectrum having the peak wavelength in the range of equal to or more than 750 nm and equal to or less than 950 nm is equal to or more than 100 nm and equal to or less than 400 nm. 3. The phosphor powder according to claim 1 , wherein a content of the Eu measured by an ICP emission spectrometry is equal to or less than 5.0 mol %. 4. The phosphor powder according to claim 1 , wherein ((D90−D10)/D50) is equal to or more than 1.00 and equal to or less than 3.00, the D10 and D90 are defined as a particle size at which a cumulative value is 50% and 90% respectively in the volume frequency particle size distribution curve of the phosphor powder measured by the laser diffraction scattering method. 5. A light emitting device comprising: a light emitting element that emits primary light; and a wavelength conversion body that absorbs a part of the primary light to emit secondary light having a wavelength longer than a wavelength of the primary light, wherein the wavelength conversion body contains the phosphor powder according to claim 1 .