Method of assembling optical fiber preforms

What is claimed is: 1. A core-cladding assembly comprising: a porous soot cladding monolith, said porous soot cladding monolith including a first porous cladding glass layer surrounding an internal cavity, said porous soot cladding monolith having a first coefficient of thermal expansion, said internal cavity including a first entrance; a consolidated glass body positioned in said internal cavity, said consolidated glass body having a second coefficient of thermal expansion and a first end surface within said internal cavity, said first end surface facing said first entrance and including a first depression. 2. The core-cladding assembly of claim 1 , wherein said consolidated glass body comprises doped silica. 3. The core-cladding assembly of claim 1 , wherein said first porous cladding glass layer is in direct contact with said consolidated glass body. 4. The core-cladding assembly of claim 2 , wherein said consolidated glass body has a core-clad ratio of at least 0.70. 5. The core-cladding assembly of claim 1 , wherein said second coefficient of thermal expansion is greater than said first coefficient of thermal expansion. 6. The core-cladding assembly of claim 1 , wherein said first depression has an ellipsoidal, conical, hemispherical, annular, cylindrical, rectangular channel, square channel, or round channel shape. 7. The core-cladding assembly of claim 1 , wherein said first depression has a lateral dimension that is in the range from 50% to 95% of a lateral dimension of said first end surface. 8. The core-cladding assembly of claim 1 , wherein said first depression has a depth dimension that is in the range from 5% to 70% of a lateral dimension of said first end surface. 9. The core-cladding assembly of claim 1 , wherein said consolidated glass body has a cylindrical shape and said first end surface has a circular cross-section. 10. The core-cladding assembly of claim 1 , wherein said consolidated glass body includes a second end surface, said second end surface including a second depression. 11. A product formed by consolidating the core-cladding assembly of claim 1 . 12. A method of producing an optical fiber comprising: providing a porous soot cladding monolith, said soot cladding monolith including a first porous glass cladding layer and having an internal cavity, said internal cavity including a first entrance; and inserting a core cane into said internal cavity to form a core-cladding assembly, said core cane including a first end surface, said first end surface including a first depression and facing said first entrance. 13. The method of claim 12 , wherein said core cane comprises doped silica. 14. The method of claim 12 , wherein said first porous cladding glass layer is in direct contact with said core cane. 15. The method of claim 13 , wherein said core cane has a core-clad ratio of at least 0.70. 16. The method of claim 12 , wherein said soot cladding monolith has a first coefficient of thermal expansion and said core cane has a second coefficient of thermal expansion, said second coefficient of thermal expansion being greater than said first coefficient of thermal expansion. 17. The method of claim 12 , wherein said first depression has a lateral dimension that is in the range from 50% to 95% of a lateral dimension of said first end surface. 18. The method of claim 12 , wherein said first depression has a depth dimension that is in the range from 5% to 70% of a lateral dimension of said first end surface. 19. The method of claim 12 , further comprising consolidating said core-cladding assembly and drawing a fiber from said consolidated core-cladding assembly.