Exterior rearview mirror assembly

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. An exterior rearview mirror assembly suitable for use for a vehicle, said exterior rearview mirror assembly comprising: a casing portion; wherein said casing portion comprises a variable reflectance mirror reflective element; an attachment portion; wherein said attachment portion is configured for attaching at a side of a vehicle; wherein said mirror reflective element comprises a front substrate and a rear substrate and an electrochromic medium disposed between said front and rear substrates; wherein said front substrate has a first surface and a second surface and wherein a transparent electrically conductive layer is disposed at said second surface of said front substrate; wherein said rear substrate has a third surface and a fourth surface and wherein a mirror reflector is disposed at at least a portion of said third surface of said rear substrate; wherein said mirror reflector comprises a stack of thin films and wherein said stack of thin films comprises at least a first metal thin film and a second metal thin film; wherein said first metal thin film is formed of a metal material that has a specific resistivity of less than about 1×10 −3 ohm·cm; wherein said second metal thin film is formed of a metal material that has a specific resistivity of less than about 1×10 −3 ohm·cm; wherein said metal material of said first metal thin film is different than said metal material of said second metal thin film; wherein said electrochromic medium is disposed in an interpane cavity between said third surface of said rear substrate and said second surface of said front substrate and is bounded by a perimeter seal; wherein no part of said rear substrate extends beyond any part of said front substrate; wherein a perimeter layer is disposed at said second surface of said front substrate proximate a perimeter edge of said front substrate, and wherein said perimeter layer comprises a reflective perimeter layer; wherein said perimeter layer comprises at least one metal thin film and wherein said perimeter layer is electrically conductive; wherein said perimeter layer generally conceals said perimeter seal from view by a driver of the vehicle normally viewing said front substrate when said exterior rearview mirror assembly is mounted at the vehicle; wherein said perimeter seal is at least partially visible to a person viewing through said rear substrate; wherein said mirror reflector extends from under said perimeter seal outward towards a portion of said perimeter edge of said rear substrate; wherein said exterior rearview mirror assembly comprises a light source; wherein said light source comprises a light source of an indicator; wherein said light source comprises at least one light emitting diode that passes less than about 75 milliamps forward current when powered; and wherein said indicator is disposed rearward of said mirror reflective element and, when actuated, illuminates through said mirror reflective element. 2. The exterior rearview mirror assembly of claim 1 , wherein said front substrate has a thickness of about 0.063 inches or less and said rear substrate has a thickness of about 0.063 inches or less. 3. The exterior rearview mirror assembly of claim 2 , wherein said mirror reflector has a sheet resistance of less than about 5 ohms per square. 4. The exterior rearview mirror assembly of claim 3 , wherein said first metal thin film has a thickness of at least about 600 angstroms. 5. The exterior rearview mirror assembly of claim 1 , wherein said mirror reflector provides at least about 55 percent photopic reflectance measured in accordance with Society of Automotive Engineers test procedure SAE J964a. 6. The exterior rearview mirror assembly of claim 5 , wherein said front and rear substrates comprise aspheric substrates, and wherein said mirror reflective element comprises a curved mirror reflective element having a more curved outboard region and a less curved inboard region, and wherein a demarcation demarcates said more curved outboard region of said mirror reflective element from said less curved inboard region of said mirror reflective element. 7. The exterior rearview mirror assembly of claim 6 , wherein light that reflects off of said mirror reflector and passes through said electrochromic medium and said front substrate has a substantially untinted reflectant characteristic to a person normally viewing said front substrate of said mirror reflective element when no voltage is applied to said electrochromic medium. 8. The exterior rearview mirror assembly of claim 7 , wherein said exterior rearview mirror assembly comprises a driver-side exterior rearview mirror assembly. 9. The exterior rearview mirror assembly of claim 1 , wherein said portion of said perimeter edge of said rear substrate is inward of a corresponding perimeter edge portion of said front substrate. 10. The exterior rearview mirror assembly of claim 1 , wherein said mirror reflective element comprises a curved mirror reflective element having a more curved outboard region and a less curved inboard region, and wherein said front and rear substrates comprise aspheric substrates and wherein a demarcation demarcates said more curved outboard region of said mirror reflective element from said less curved inboard region of said mirror reflective element. 11. The exterior rearview mirror assembly of claim 10 , wherein said demarcation comprises one of (i) a continuous line and (ii) closely interspaced dots, dashes or spots. 12. An exterior rearview mirror assembly suitable for use for a vehicle, said exterior rearview mirror assembly comprising: a casing portion; wherein said casing portion comprises a variable reflectance mirror reflective element; an attachment portion; wherein said attachment portion is configured for attaching at a side of a vehicle; wherein said mirror reflective element comprises a front substrate and a rear substrate and an electrochromic medium disposed between said front and rear substrates; wherein said front substrate has a first surface and a second surface and wherein a transparent electrically conductive layer is disposed at said second surface of said front substrate; wherein said rear substrate has a third surface and a fourth surface and wherein a mirror reflector is disposed at at least a portion of said third surface of said rear substrate; wherein said mirror reflector comprises a stack of thin films and wherein said stack of thin films comprises at least a first metal thin film and a second metal thin film; wherein said first metal thin film is formed of a metal material that has a specific resistivity of less than about 1×10 −3 ohm·cm; wherein said second metal thin film is formed of a metal material that has a specific resistivity of less than about 1×10 −3 ohm·cm; wherein said metal material of said first metal thin film is different than said metal material of said second metal thin film; wherein said electrochromic medium is disposed in an interpane cavity between said third surface of said rear substrate and said second surface of said front substrate and is bounded by a perimeter seal; wherein no part of said rear substrate extends beyond any part of said front substrate; wherein a perimeter layer is disposed at said second surface of said front substrate proximate a perimeter edge of said front substrate, and wherein said perimeter layer comprises a reflective perimeter layer; wherein said perimeter layer comprises at least one metal thin film and wherein said perimeter layer is electrically conductive; wh