Decorative glass panel

The invention claimed is: 1. An almost opaque decorative glass panel, comprising a substrate made of vitreous material bearing a multilayer stack including at least one light-absorbent functional layer and transparent dielectric coatings such that the light-absorbent functional layer is enclosed between dielectric coatings, wherein: the light-absorbent functional layer has a geometric thickness between 15 and 140 nm, an attenuation coefficient k of at least 1.8 and a product of the attenuation coefficient k by a geometric layer thickness in nanometers of the light-absorbing functional layer of at least 91; the multilayer stack in addition comprises at least one attenuating layer having a geometric thickness between 1 and 50 nm and having a refractive index n higher than 1 and an attenuation coefficient k of at least 0.5; a transparent dielectric coating an optical thickness of which is between 30 and 160 nm, and a refractive index n of which is higher than 1.5 unless the transparent dielectric coating makes contact with air, is placed adjacent the attenuating layer on a side opposite the light-absorbent functional layer; the attenuating layer does not comprise aluminium, and the glass panel has a reflectivity of 6% or less on the substrate side. 2. The decorative panel according to claim 1 , wherein the light-absorbent functional layer is a layer of metallic character. 3. The decorative panel according to claim 1 , wherein the attenuating layer is a layer of metallic character. 4. The decorative panel according to claim 1 , wherein the attenuating layer is separated from the light-absorbent functional layer by a transparent dielectric coating. 5. The decorative substrate according to claim 1 , wherein the geometric thickness of the light-absorbent functional layer is at most 88 nm. 6. The decorative panel according to claim 1 , wherein the geometric thickness of the light-absorbent functional layer is 28 nm or more. 7. The decorative panel according to claim 1 , wherein the geometric thickness of the attenuating layer is 30 nm or less. 8. The decorative panel according to claim 1 , wherein a product of the attenuation coefficient k by the refractive index n and by the geometric thickness, expressed in nm, of the attenuating layer is higher than 35. 9. The decorative panel according to claim 1 , wherein the optical thickness of said dielectric coating placed adjacent the attenuating layer on the side opposite the light-absorbent functional layer is between 50 and 140 nm. 10. The decorative panel according to claim 1 , wherein: the geometric thickness of the light-absorbent functional layer is between 25 and 70 nm; the geometric thickness of the attenuating layer is between 1 and 15 nm; and the optical thickness of said dielectric coating placed adjacent the attenuating layer on the side opposite the light-absorbent functional layer is between 40 and 160 nm. 11. The decorative panel according to claim 1 , wherein the light-absorbent functional layer and/or the attenuating layer is/are formed from an alloy based on Ni, Cr, Zr or NiCr. 12. The decorative panel according to claim 11 , wherein the light-absorbent functional layer and/or said attenuating layer is/are based on an alloy from the group consisting of NiCr, NiCrW, NbZr and CrZr. 13. The decorative panel according to claim 1 , wherein at least the transparent dielectric coatings external with respect to the stack in its entirety are based on aluminum nitride or silicon nitride. 14. The decorative panel according to claim 1 , wherein a second attenuating layer, having a geometric thickness between 1 and 50 nm, having a refractive index n higher than 1 and an attenuation coefficient k of at least 0.5, and an additional transparent dielectric coating an optical thickness of which is between 30 and 160 nm, and a refractive index n of which is higher than 1.5 unless the additional transparent dielectric coating makes contact with air, are added on an other side of the light-absorbent functional layer with respect to the first attenuating layer, so that this additional transparent dielectric coating is on the other side of the second attenuating layer with respect to the light-absorbent functional layer. 15. A laminated panel, comprising a decorative panel according to claim 1 , with which another glass sheet is associated by way of an adhesive thermoplastic. 16. A laminated panel, comprising a glass panel according to claim 14 , with which another glass sheet is associated by way of an adhesive thermoplastic. 17. The decorative panel according to claim 1 , wherein the light-absorbent functional layer comprises at least one member selected from the group consisting of NiCrW, Al, Ti and CrN. 18. The decorative panel according to claim 1 , wherein the attenuating layer comprises at least one member selected from the group consisting of W, NiCrW, Ti, TiN, ZrN, Cr, CrN and TaN. 19. The decorative panel according to claim 1 , wherein the light-absorbent functional layer has a geometric thickness of 34 to 131.5 nm, and an attenuation coefficient k of 1.8 to 3.6. 20. An almost opaque decorative glass panel, comprising a substrate made of vitreous material bearing a multilayer stack, the multi-layer stack comprising: a light-absorbent functional layer; transparent dielectric coatings that enclose the light-absorbent functional layer between the dielectric coatings; and an attenuating layer having a geometric thickness between 1 and 50 nm and having a refractive index n higher than 1 and an attenuation coefficient k of at least 0.5, wherein one transparent dielectric coating having an optical thickness of between 30 and 160 nm, and a refractive index n of higher than 1.5 unless the one transparent dielectric coating makes contact with air, is adjacent the attenuating layer on a side opposite the light-absorbent functional layer, wherein the light-absorbent functional layer has a geometric thickness between 15 and 140 nm, an attenuation coefficient k of at least 1.8 and a product of the attenuation coefficient k by the layer thickness in nanometers of at least 91, wherein the attenuating layer comprises a material selected from the group consisting of titanium, niobium, chromium, molybdenum, zirconium, tantalum, palladium, yttrium, tungsten, hafnium, vanadium or alloys thereof, and wherein the glass panel has a reflectivity of no more than 6% on the substrate side.