Durable optical interference pigment with a bimetal core

We claim: 1. An asymmetric color-shifting flake comprising: an asymmetric magnetic structure with a first side and a second side, comprising a magnetic layer on the first side of the asymmetric magnetic structure and a non-magnetic reflector layer on the magnetic layer, on the second side of the asymmetric magnetic structure; a first spacer layer on the first side of the asymmetric magnetic structure and a first absorber layer on the first spacer layer; and a second spacer layer on the second side of the asymmetric magnetic structure and a second absorber layer on the second spacer layer. 2. The flake as defined in claim 1 , wherein the first spacer layer is at least partially transparent. 3. The flake as defined in claim 1 , wherein at least one of the magnetic layer and the non-magnetic reflector layer is stable upon exposure to a chemical reagent. 4. The flake as defined in claim 1 , wherein the magnetic layer is more stable when exposed to an alkaline solution than the non-magnetic reflector layer. 5. The flake as defined in claim 1 , wherein the non-magnetic reflector layer comprises aluminum. 6. The flake as defined in claim 3 , wherein the chemical reagent is aqueous sulfuric acid (H 2 SO 4 ). 7. The flake as defined in claim 3 , wherein the chemical reagent is sodium hydroxide (NaOH). 8. The flake as defined in claim 3 , wherein—the chemical reagent is aqueous sodium hypochlorite. 9. The flake as defined in claim 1 , wherein the flake consists of six layers including the non-magnetic reflector layer, the magnetic layer, the first and second spacer layers, and the first and second absorber layers. 10. The flake as defined in claim 1 , wherein the flake omits a second reflector layer. 11. The flake as defined in claim 1 , wherein the flake exhibits a calculated PRDI ranging from 33.3 to 1.11. 12. A coating composition comprising a carrier and a plurality of asymmetric color-shifting flakes as defined in claim 1 , dispersed therein. 13. The coating composition as defined in claim 12 , applied to a surface, wherein the plurality of asymmetric color-shifting flakes are magnetically aligned. 14. The coating composition as defined in claim 12 , wherein a portion of the plurality of asymmetric color-shifting flakes are turned with the magnetic layer side up, and another portion of the plurality of asymmetric color-shifting flakes are turned with the non-magnetic reflector layer side up. 15. An asymmetric color-shifting flake comprising: an asymmetric structure with a first side and a second side, comprising a first reflector layer on the first side of the asymmetric structure and a second reflector layer on the first reflector layer, on the second side of the asymmetric structure, wherein the first reflector layer is made of a material different from a material of the second reflector layer; a first spacer layer on the first side of the asymmetric structure and a first absorber layer on the first spacer layer; and, a second spacer layer on the second side of the asymmetric structure and a second absorber layer on the second spacer layer, wherein at least one of the first reflector layer and the second reflector layer is stable upon exposure to a chemical reagent. 16. The flake as defined in claim 15 , wherein the flake omits a third reflector layer. 17. The flake as defined in claim 15 , wherein the first and second absorber layers form a single absorber layer that surrounds the asymmetric structure. 18. The flake as defined in claim 15 , wherein the first and second spacer layers form a single spacer layer that surrounds the asymmetric structure. 19. The flake as defined in claim 15 , wherein the first reflector layer exhibits a ΔE* of less than about 10 CIELab units when exposed to the chemical reagent. 20. A method of making the asymmetric color-shifting flake of claim 15 , comprising: depositing a first absorber layer onto a web; depositing a first spacer layer onto the first absorber layer; depositing a magnetic layer onto the first spacer layer; depositing a reflector layer onto the magnetic layer; depositing a second spacer layer on the reflector layer; and depositing a second absorber layer on the second spacer layer.