Epsilon iron oxide and method for producing the same, magnetic coating material and magnetic recording medium

1 . A method for producing epsilon iron oxide, comprising: depositing a metal compound of a substitutional element on iron oxide hydroxide to thereby obtain iron oxide hydroxide on which the metal compound is deposited; coating the iron oxide hydroxide on which the metal compound is deposited, with silicon oxide to thereby obtain iron oxide hydroxide coated with the silicon oxide; and applying heat treatment to the silicon oxide-coated iron oxide hydroxide in an oxidizing atmosphere, wherein a part of an iron element is substituted with the substitutional element. 2 . The method for producing epsilon iron oxide according to claim 1 , wherein the heat-treated powder obtained in the heat-treatment is further treated with an alkali aqueous solution to thereby produce epsilon iron oxide. 3 . The method for producing epsilon iron oxide according to claim 1 , wherein obtaining the iron oxide hydroxide on which the metal compound is deposited further comprises: dissolving a metal salt of the substitutional element in a suspension of the iron oxide hydroxide; and adding an aqueous alkali solution to the suspension of the iron oxide hydroxide in which the metal salt is dissolved to thereby obtain iron oxide hydroxide on which the metal compound is deposited. 4 . The method for producing epsilon iron oxide according to claim 1 , wherein the iron oxide hydroxide on which the metal compound is deposited is coated with silicon oxide and thereafter dried, to thereby obtain silicon oxide-coated iron oxide hydroxide. 5 . Epsilon iron oxide in which a part of an iron element is substituted with a substitutional element, and which has an average particle size of 10 to 18 nm, and a coefficient of variation of the particle size of 40% or less. 6 . The epsilon iron oxide according to claim 5 , wherein a value of a particle volume (1) is 500 nm 3 or more and a value of a particle volume (2) is 10000 nm 3 or less, wherein the particle volume (1) is the value of a volume determined by obtaining a standard deviation of a particle size distribution of epsilon iron oxide of claim 5 , and spherically approximating the epsilon iron oxide particles, in which a value obtained by subtracting the value of the standard deviation from a value of an average particle size of the epsilon iron oxide is regarded as a lower limit of the particle size of the epsilon iron oxide; and the particle volume (2) is the value of a volume determined by obtaining the standard deviation of the particle size distribution of epsilon iron oxide of claim 5 , and spherically approximating the epsilon iron oxide particles, in which a value obtained by adding the value of the standard deviation to the average particle size value of the epsilon iron oxide is regarded as an upper limit of the particle size of the epsilon iron oxide. 7 . The epsilon iron oxide according to claim 6 , wherein the value obtained by subtracting the value of the particle volume (1) from the value of the particle volume (2) is 5000 nm 3 or less. 8 . A magnetic coating material, wherein the epsilon iron oxide of claim 5 is used. 9 . A magnetic recording medium, wherein the epsilon iron oxide of claim 5 is used. 10 . The method for producing epsilon iron oxide according to claim 2 , wherein obtaining the iron oxide hydroxide on which the metal compound is deposited further comprises: dissolving a metal salt of the substitutional element in a suspension of the iron oxide hydroxide; and adding an aqueous alkali solution to the suspension of the iron oxide hydroxide in which the metal salt is dissolved to thereby obtain iron oxide hydroxide on which the metal compound is deposited. 11 . The method for producing epsilon iron oxide according to claim 2 , wherein the iron oxide hydroxide on which the metal compound is deposited is coated with silicon oxide and thereafter dried, to thereby obtain silicon oxide-coated iron oxide hydroxide. 12 . The method for producing epsilon iron oxide according to claim 3 , wherein the iron oxide hydroxide on which the metal compound is deposited is coated with silicon oxide and thereafter dried, to thereby obtain silicon oxide-coated iron oxide hydroxide. 13 . The method for producing epsilon iron oxide according to claim 10 , wherein the iron oxide hydroxide on which the metal compound is deposited is coated with silicon oxide and thereafter dried, to thereby obtain silicon oxide-coated iron oxide hydroxide. 14 . A magnetic coating material, wherein the epsilon iron oxide of claim 6 is used. 15 . A magnetic recording medium, wherein the epsilon iron oxide of claim 6 is used. 16 . A magnetic coating material, wherein the epsilon iron oxide of claim 7 is used. 17 . A magnetic recording medium, wherein the epsilon iron oxide of claim 7 is used.