Multilayer ceramic capacitor, dielectric ceramic, multilayer ceramic electronic component, and method for manufacturing multilayer ceramic capacitor

The invention claimed is: 1. A multilayer ceramic capacitor comprising a multilayer body having a plurality of laminated dielectric ceramic layers and a plurality of internal electrodes at different interfaces between said dielectric ceramic layers; and external electrodes on an outer surface of said multilayer body, wherein a dielectric ceramic comprising the dielectric ceramic layers comprises a perovskite-type compound containing Ba and Ti as a primary ingredient, and the dielectric ceramic further includes Bi and one of M and Q as sub-ingredients, in which M is at least one member of the group consisting of Cu, Zn, Li, K, and Na, and Q is at least one member of the group consisting of Ba, Ca and Sr, a total content of M, Q and Bi is equal to or greater than 3 molar parts when a total content of Ti is 100 molar parts, and a crystal particle size of said dielectric ceramic is 30 nm or more and 150 nm or less. 2. The multilayer ceramic capacitor according to claim 1 , wherein the total content of M, Q, and Bi is equal to or less than 12 molar parts when the total content of Ti is 100 molar parts. 3. A multilayer ceramic capacitor according to claim 2 , wherein the dielectric ceramic includes the Bi and the M as the sub-ingredients. 4. A multilayer ceramic capacitor according to claim 2 , wherein the dielectric ceramic includes the Bi and the Q as the sub-ingredients. 5. A multilayer ceramic capacitor according to claim 4 , wherein a part of the Ba is substituted by Ca, and a part of the Ti is substituted by Zr. 6. A multilayer ceramic capacitor according to claim 1 , wherein the dielectric ceramic includes the Bi and the M as the sub-ingredients. 7. A multilayer ceramic capacitor according to claim 1 , wherein the dielectric ceramic includes the Bi and the Q as the sub-ingredients. 8. A multilayer ceramic capacitor according to claim 7 , wherein a part of the Ba is substituted by Ca, and a part of the Ti is substituted by Zr. 9. A multilayer ceramic capacitor according to claim 2 , wherein said total content of M, Q and Bi is at a time when said dielectric is dissolved in a solvent. 10. A multilayer ceramic capacitor according to claim 1 , wherein said total content of M, Q and Bi is at a time when said dielectric is dissolved in a solvent. 11. A dielectric ceramic comprising a perovskite-type compound containing Ba and Ti as a primary ingredient, and the dielectric ceramic further comprising Bi and one of M and Q as sub-ingredients, wherein M is at least one member of the group consisting of Cu, Zn, Li, K, and Na, and Q is at least one member of the group consisting of Ba, Ca and Sr, a total content of M, Q and Bi is equal to or greater than 3 molar parts when a total content of Ti is 100 molar parts, and a crystal particle size of said dielectric ceramic is 30 nm or more and 150 nm or less. 12. The dielectric ceramic according to claim 11 , wherein the total content of M, Q and Bi is equal to or less than 12 molar parts when the total content of Ti is 100 molar parts. 13. The dielectric ceramic according to claim 12 , wherein the dielectric ceramic includes the Bi and the M as the sub-ingredients. 14. The dielectric ceramic according to claim 12 , wherein the dielectric ceramic includes the Bi and the Q as the sub-ingredients. 15. The dielectric ceramic according to claim 14 , wherein a part of the Ba is substituted by Ca, and a part of the Ti is substituted by Zr. 16. The dielectric ceramic according to claim 11 , wherein the dielectric ceramic includes the Bi and the M as the sub-ingredients. 17. The dielectric ceramic according to claim 11 , wherein the dielectric ceramic includes the Bi and the Q as the sub-ingredients. 18. The dielectric ceramic according to claim 17 , wherein a part of the Ba is substituted by Ca, and a part of the Ti is substituted by Zr. 19. A method of forming a multilayer ceramic capacitor comprising forming a ceramic green sheet from a slurry of a dielectric ceramic according to claim 11 , forming a laminate comprising a plurality of the ceramic green sheets with a pair of internal electrodes disposed at different interfaces between adjacent ceramic green sheets, and sintering the laminate. 20. A method of forming a multilayer ceramic capacitor comprising forming a ceramic green sheet from a slurry of a dielectric ceramic according to claim 12 , forming a laminate comprising a plurality of the ceramic green sheets with a pair of internal electrodes disposed at different interfaces between adjacent ceramic green sheets, and sintering the laminate.