Broadband emission material and white light emission material

The invention claimed is: 1. A broadband emission material comprising: a fluoride glass containing 20 to 45 mol % of AlF 3 , 25 to 63 mol % of alkaline-earth fluorides in total and 3 to 25 mol % of at least one fluoride of an element selected from the group consisting of Y, La, Gd and Lu; and ytterbium ions incorporated in the fluoride glass as divalent rare-earth ions so as to serve as a luminescent center, wherein the fluoride glass includes 1 to 15 mol % of at least one halide of an element selected from the group consisting of Al, Ba, Sr, Ca and Mg and an element selected from the group consisting of Cl, Br and I; and wherein the alkaline-earth fluorides includes 0 to 15 mol % of MgF 2 , 7 to 25 mol % of CaF 2 , 0 to 22 mol % of SrF 2 and 0 to 2 mol % of BaF 2 . 2. The broadband emission material according to claim 1 , wherein the total amount of a phosphorus compound in the fluoride glass is 1 mol % or less. 3. A composite luminescent material comprising: an encapsulant material; and the broadband emission material according to claim 1 being dispersed in the encapsulant material. 4. An optical waveguide comprising the broadband emission material according to claim 1 as a core. 5. A white light emission material comprising: the broadband emission material according to claim 1 ; and a phosphor having a luminescent center wavelength of 550 nm to 650 nm and being incorporated in the fluoride glass. 6. A white light emission material comprising: a broadband emission material including: a fluoride lass containing 20 to 45 mol % of AlF 3 , 25 to 63 mol % of alkaline-earth fluorides in total and 3 to 25 mol % of at least one fluoride of an element selected from the group consisting of Y, La, Gd and Lu; and ytterbium ions incorporated in the fluoride glass as divalent rare-earth ions so as to serve as a luminescent center, the fluoride glass including 1 to 15 mol % of at least one halide of an element selected from the group consisting of Al, Ba, Sr, Ca and Mg and an element selected from the group consisting of Cl, Br and I, the alkaline-earth fluorides including 0 to 15 mol % of MgF 2 , 7 to 25 mol % of CaF 2 , 0 to 22 mol % of SrF 2 and 0 to 5 mol % of BaF 2 ; and 0.01 to 2 mol % of at least one halide of an element selected from the group consisting of Mn, Sm and Pr being incorporated in the fluoride glass. 7. The white light glass emission material according to claim 6 , further comprising a phosphor having a luminescent center wavelength of 550 nm to 650 nm and being incorporated in the fluoride glass. 8. A white light glass emission material comprising: a broadband emission material including: a fluoride lass containing 20 to 45 mol % of AlF 3 , 25 to 63 mol % of alkaline-earth fluorides in total and 3 to 25 mol % of at least one fluoride of an element selected from the group consisting of Y, La, Gd and Lu; and ytterbium ions incorporated in the fluoride glass as divalent rare-earth ions so as to serve as a luminescent center, wherein the fluoride glass includes 1 to 15 mol % of at least one halide of an element selected from the group consisting of Al, Ba, Sr, Ca and Mg and an element selected from the group consisting of Cl, Br and I; wherein the alkaline-earth fluorides includes 0 to 15 mol % of MgF 2 , 7 to 25 mol % of CaF 2 , 0 to 22 mol % of SrF 2 and 0 to 5 mol % of BaF 2 ; and wherein the total amount of Ba cations contained in the fluoride glass is 0 to 5 mol %. 9. The white light glass emission material according to claim 8 , further comprising 0.01 to 2 mol % of at least one halide of element selected from the group consisting of Mn, Sm and Pr being incorporated in the fluoride glass. 10. The white light glass emission material according to claim 8 , further comprising a phosphor having a luminescent center wavelength of 550 nm to 650 nm and being incorporated in the fluoride glass. 11. A composite luminescent material comprising: an encapsulant material; and the white light emission material according to claim 5 being dispersed in the encapsulant material. 12. An optical waveguide comprising the white light emission material according to claim 5 as a core. 13. A white light emitting device, comprising: the white light emission material according to claim 5 as an amplifier; at least one excitation light source having a wavelength range of 190 nm to 450 nm; a coupling optical mechanism for coupling excitation light from the excitation light source to the white light emission material; and an emission optical mechanism for outputting a light emission from the white light emission material. 14. A composite luminescent material comprising: an encapsulant material; and the white light emission material according to claim 6 being dispersed in the encapsulant material. 15. An optical waveguide comprising the white light emission material according to claim 6 as a core. 16. A white light emitting device, comprising: the white light emission material according to claim 6 as an amplifier; at least one excitation light source having a wavelength range of 190 nm to 450 nm; a coupling optical mechanism for coupling excitation light from the excitation light source to the white light emission material; and an emission optical mechanism for outputting a light emission from the white light emission material. 17. A composite luminescent material comprising: a sealing material; and the white light emission material according to claim 8 being dispersed in the sealing material. 18. An optical waveguide comprising the white light emission material according to claim 8 as a core. 19. A white light emitting device, comprising: the white light emission material according to claim 8 as an amplifier; at least one excitation light source having a wavelength range of 190 nm to 450 nm; a coupling optical mechanism for coupling excitation light from the excitation light source to the white light emission material; and an emission optical mechanism for outputting a light emission from the white light emission material.