Powder for powder magnetic core, and powder magnetic core

The invention claimed is: 1. A powder, comprising iron-based soft magnetic powder particles comprising a phosphoric acid-based chemical conversion coating on a surface thereof, wherein the phosphoric acid-based chemical conversion coating has a non-uniform thickness and recessed portions are formed on a surface of the phosphoric acid-based chemical conversion coating, the phosphoric acid-based chemical conversion coating has a maximum thickness of 20-200 nm, and the recessed portions form openings on the surface of the phosphoric acid-based chemical conversion coating, the openings having a total area of 0.5-50% relative to a total area of field of view when ten or more positions of the surface of the phosphoric acid-based chemical conversion coating are observed under a scanning electron microscope of 10,000 or more magnifications. 2. The powder according to claim 1 , wherein the openings are of a generally circular shape having an average circle equivalent diameter of 50-1,000 nm; and when 10 or more positions of a region of 5 μm×5 μm on the surface of the phosphoric acid-based chemical conversion coating are observed, a number of the openings is 10 or more on average, or when 10 or more positions of a cross section of the phosphoric acid-based chemical conversion coating are observed, a number of the openings is one or more on average per 5 μm surface length of the iron-based soft magnetic powder particles. 3. A powder magnetic core, obtained by a process comprising compressively forming a powder, which comprises iron-based soft magnetic powder particles having a phosphoric acid-based chemical conversion coating on a surface thereof, wherein the phosphoric acid-based chemical conversion coating has a non-uniform thickness and recessed portions are formed on a surface of the phosphoric acid-based chemical conversion coating, when a broken-out section of the powder magnetic core is observed, in a portion surrounded by three or more of the iron-based soft magnetic powder particles: the phosphoric acid-based chemical conversion coating has a maximum thickness of 20-200 nm; the recessed portions form openings on the surface of the phosphoric acid-based chemical conversion coating; and a total length of surface of the three or more iron-based soft magnetic powder particles where the phosphoric acid-based chemical conversion coating is adhered is 50% or more relative to a total length of the surface of the three or more iron-based soft magnetic powder particles; and in the portion surrounded by three or more of the iron-based soft magnetic powder particles: one or more on average recessed portions comprising 50-1,000 nm-wide openings are present per 5 μm length of the surface of the iron-based soft magnetic powder particles in the phosphoric acid-based chemical conversion coating; a first oxide layer, the phosphoric acid-based chemical conversion coating, and a second oxide layer are laminated in this order on the surface of the iron-based soft magnetic powder particles where the phosphoric acid-based chemical conversion coating is adhered; and a thickness of the first oxide layer is 200 nm or less. 4. The powder according to claim 1 , wherein the phosphoric acid-based chemical conversion coating contains Ni. 5. The powder according to claim 1 , further comprising a silicone resin coating on the phosphoric acid-based chemical conversion coating. 6. The powder magnetic core according to claim 3 , wherein the phosphoric acid-based chemical conversion coating contains Ni. 7. The powder according to claim 5 , wherein the silicon resin coating has a thickness of 1-200 nm. 8. A powder magnetic core, obtained by a process comprising compressively forming the powder according to claim 1 . 9. The powder magnetic core according to claim 3 , wherein the powder further comprises a silicone resin coating on the phosphoric acid-based chemical conversion coating. 10. The powder according to claim 1 , wherein the recessed portions are portions of the phosphoric acid-based chemical conversion coating having a thickness which is 50% or less of the maximum thickness of the phosphoric acid-based chemical conversion coating. 11. The powder according to claim 5 , wherein a total thickness of the phosphoric acid-based chemical conversion coating and the silicon resin coating is 250 nm or less. 12. The powder magnetic core according to claim 3 , wherein the recessed portions are portions of the phosphoric acid-based chemical conversion coating having a thickness which is 50% or less of the maximum thickness of the phosphoric acid-based chemical conversion coating. 13. The powder magnetic core according to claim 9 , wherein the silicon resin coating has a thickness of 1-200 nm. 14. The powder magnetic core according to claim 9 , wherein a total thickness of the phosphoric acid-based chemical conversion coating and the silicon resin coating is 250 nm or less.