Friction reduction for engine components

The invention claimed is: 1. A surface protection thin coating on an engine component that is a chromium steel substrate with a patterned discrete surface texture on a surface of the engine component, the surface protection layer comprising: a thin diamond-like carbon (DLC) coating deposited on the engine component surface using a closed field unbalanced magnetron sputtering ion plating apparatus with a pure carbon rod, the DLC coating having SP 3 diamond phase mixed with SP 2 and SP 1 amorphous carbon phases and a thickness of 50 nm to 250 nm; and a pure chromium (Cr) interlayer produced during deposition of the thin diamond-like carbon (DLC) coating to bridge the steel substrate and the thin diamond-like carbon (DLC) coating without interruption to form a strong bond between the engine component surface and the thin diamond-like carbon (DLC) coating, the chromium (Cr) interlayer forming strong bonding with the chromium steel substrate with the patterned discrete surface texture. 2. The surface protection thin coating according to claim 1 , wherein the surface is a surface of an internal combustion engine. 3. The surface protection thin coating according to claim 1 , wherein a friction coefficient of the thin coating is reduced. 4. The surface protection thin coating according to claim 1 , wherein the DLC coating having SP 3 diamond phase mixed with SP 2 and SP 1 amorphous carbon phases forms in situ the SP 3 diamond phase within the SP 2 and SP 1 amorphous carbon phases and with a thickness of 50 nm to 250 nm. 5. The surface protection thin coating according to claim 4 , wherein the thickness is 150 nm. 6. The surface protection thin coating according to claim 1 , wherein the patterned discrete surface texture is formed by discrete dimples with holes, and edges of the dimples are protected by the thin diamond-like carbon (DLC) coating. 7. The surface protection thin coating according to claim 1 , wherein a bonded chemical film forming a molecular assembly of bonded molecules and free to move molecules and a polymer dome to protect the whole assembly are provided. 8. The surface protection thin coating according to claim 7 , wherein the bonded chemical film has viscoelastic properties. 9. The surface protection thin coating according to claim 7 , wherein the bonded chemical film includes alcohol groups that react to diamond crystalline defects in the thin diamond-like carbon (DLC) coating having the SP 3 diamond phase. 10. The surface protection thin coating according to claim 9 , wherein the alcohol groups include any of long chain alcohols and oleyl alcohol.