Dielectric composition and multilayer capacitor

What is claimed is: 1 . A dielectric composition comprising: a BaTiO 3 -based main ingredient; and an auxiliary ingredient including rare earth elements, wherein the rare earth elements include Dy and Eu, and Dy and Eu molar contents based on 100 moles of the BaTiO 3 -based main ingredient satisfy conditions of 0.10<Eu/(Dy+Eu)≤0.50 and 0.60≤Dy+Eu≤1.0, and the rare earth elements do not include another element in a higher molar content than Dy and Eu. 2 . The dielectric composition of claim 1 , wherein the Dy molar content based on 100 moles of the BaTiO 3 -based main ingredient satisfies a condition of 0.30≤Dy≤0.70. 3 . The dielectric composition of claim 1 , wherein the Eu molar content based on 100 moles of the BaTiO 3 -based main ingredient satisfies a condition of 0.10≤Eu≤0.50. 4 . The dielectric composition of claim 1 , wherein the rare earth elements include only Dy and Eu. 5 . A multilayer capacitor comprising: a body including a dielectric layer and a plurality of internal electrodes stacked with the dielectric layer interposed therebetween; and external electrodes disposed on the body and connected to the plurality of internal electrodes, wherein the dielectric layer includes a dielectric grain, the dielectric grain includes a BaTiO 3 -based main ingredient and an auxiliary ingredient including rare earth elements, the rare earth elements include Dy and Eu, Dy and Eu molar contents based on 100 moles of the BaTiO 3 -based main ingredient satisfy conditions of 0.10<Eu/(Dy+Eu)≤0.50 and 0.60≤Dy+Eu≤1.0, and the rare earth elements do not include another element in a higher molar content than Dy and Eu. 6 . The multilayer capacitor of claim 5 , wherein the dielectric grain has a core-shell structure including a core portion and a shell portion having a different composition from the core portion. 7 . The multilayer capacitor of claim 6 , wherein the rare earth elements are included in the shell portion. 8 . The multilayer capacitor of claim 5 , wherein the Dy molar content based on 100 moles of the BaTiO 3 -based main ingredient satisfies a condition of 0.30≤Dy≤0.70. 9 . The multilayer capacitor of claim 5 , wherein the Eu molar content based on 100 moles of the BaTiO 3 -based main ingredient satisfies a condition of 0.10≤Eu≤0.50. 10 . The multilayer capacitor of claim 5 , wherein the rare earth elements include only Dy and Eu. 11 . A multilayer capacitor comprising: a body including a dielectric layer and a plurality of internal electrodes stacked with the dielectric layer interposed therebetween, wherein the dielectric layer includes a dielectric grain including a BaTiO3-based main ingredient and an auxiliary ingredient including rare earth elements, the rare earth elements include Dy and Eu, Dy and Eu molar contents based on 100 moles of the BaTiO 3 -based main ingredient satisfy conditions of 0.10<Eu/(Dy+Eu)≤0.50; and external electrodes disposed on the body and connected to the plurality of internal electrodes. 12 . The multilayer capacitor of claim 11 , wherein the Dy and Eu molar contents satisfy 0.17<Eu/(Dy+Eu)≤0.50. 13 . The multilayer capacitor of claim 11 , wherein the Dy and Eu molar contents satisfy 0.60≤Dy+Eu≤1.0. 14 . The multilayer capacitor of claim 11 , wherein the rare earth elements do not include another element in a higher molar content than Dy and Eu. 15 . The multilayer capacitor of claim 11 , wherein the Dy molar content satisfies 0.30≤Dy≤0.70. 16 . The multilayer capacitor of claim 11 , wherein the Dy molar content satisfies 0.30≤Dy<0.50. 17 . The multilayer capacitor of claim 11 , wherein the Eu molar content satisfies 0.10≤Eu≤0.50. 18 . The multilayer capacitor of claim 11 , wherein the Eu molar content satisfies 0.20≤Eu≤0.30.