Methods for enriching, separating, or enriching and separating isotopes and isotopologues, as well as other chemical species, contained in a supersonic beam are provided. In the methods, a supersonic beam having different isotopes, isotopologues, or other chemical species entrained therein and a beam comprising a matrix material converge on a surface. As the matrix material forms a solid matrix on the surface, heavier isotopes, isotopologues, and/or other chemical species become preferentially embedded in the matrix, while lighter isotopes, isotopologues, and/or other chemical species are preferentially scattered from the surface.

Methods for enriching, separating, or enriching and separating isotopes and isotopologues, as well as other chemical species, contained in a supersonic beam are provided. In the methods, a supersonic beam having different isotopes, isotopologues, or other chemical species entrained therein and a beam comprising a matrix material converge on a surface. As the matrix material forms a solid matrix on the surface, heavier isotopes, isotopologues, and/or other chemical species become preferentially embedded in the matrix, while lighter isotopes, isotopologues, and/or other chemical species are preferentially scattered from the surface.

Methods for enriching, separating, or enriching and separating isotopes and isotopologues, as well as other chemical species, contained in a supersonic beam are provided. In the methods, a supersonic beam having different isotopes, isotopologues, or other chemical species entrained therein and a beam comprising a matrix material converge on a surface. As the matrix material forms a solid matrix on the surface, heavier isotopes, isotopologues, and/or other chemical species become preferentially embedded in the matrix, while lighter isotopes, isotopologues, and/or other chemical species are preferentially scattered from the surface.