Rearview mirror assemblies with anisotropic polymer laminates

What is claimed is: 1. A switchable mirror system (SMS) for use in a vehicular rearview assembly equipped with a light source transmitting light from within the rearview assembly through said SMS to a field-of-view (FOV) outside the assembly, the SMS comprising: at least two electro-optic (EO) cells defined by at least three sequentially disposed spaced-apart substrates, a first EO-cell corresponding to an outside portion of the rearview assembly and a second EO-cell disposed between the first EO-cell and the light source; and at least two linear reflective polarizers disposed so as to sandwich an EO-medium of the second EO-cell between said linear reflective polarizers, wherein the first EO-cell has an EO-medium comprising absorbing and non-absorbing states, and is adapted to be a switchable linear absorptive polarizer that attenuates light reflected from the second EO-cell, and does not substantially attenuate light transmitted from the light source through the second EO-cell, and further wherein said SMS has a reflectance value that is gradually variable in response to changes in voltages applied to the first EO-cell, and as measured in said FOV in ambient light. 2. A switchable mirror system (SMS) according to claim 1 , wherein at least one of the first and second EO-cells includes a thin-film alignment layer having an anisotropic surface. 3. A switchable mirror system (SMS) according to claim 1 , wherein at least one of said at least two linear reflective polarizers includes multiple layers of plastic film. 4. A switchable mirror system (SMS) according to claim 1 , wherein at least one of said two linear reflective polarizers includes a wire-grid polarizer. 5. A switchable mirror system (SMS) according to claim 4 , further comprising a thin-film planarization layer overcoating said wire-grid polarizer, the planarization layer having a substantially flat surface. 6. A switchable mirror system (SMS) according to claim 1 , wherein a substrate from the at least three substrates is a polymer-based linear reflective polarizer. 7. A switchable mirror system (SMS) according to claim 1 , wherein the first and second EO-cells share a common substrate. 8. A switchable mirror system (SMS) according to claim 1 , wherein molecules of an EO-medium of the first EO-cell change their spatial orientations in response to a voltage applied to said first EO-cell thereby keeping a transmittance value of the SMS substantially unchanged during the gradual variation of said reflectance value. 9. A switchable mirror system (SMS) according to claim 1 , wherein said switchable linear absorptive polarizer includes an electrochromic (EC) element containing orientated EC medium. 10. A switchable mirror system (SMS) according to claim 1 , wherein said switchable linear absorptive polarizer includes a guest-host liquid-crystal cell containing a dye, and wherein the second EO-cell includes a twisted nematic liquid-crystal medium. 11. A switchable mirror system (SMS) according to claim 1 configured within said rearview assembly, said rearview assembly further comprising one or more of an illumination assembly, a display, a voice activated system, a compass system, a telephone system, a highway toll booth interface, a telemetry system, a headlight controller, a glare sensor, a rain sensor, a tire pressure monitoring system, a navigation system, a lane departure warning system, and an adaptive cruise control system. 12. A switchable mirror system (SMS) for use in a rearview assembly equipped with a light source transmitting light from within the assembly through said SMS to a field-of-view (FOV) outside the assembly, said SMS comprising: at least two electro-optic (EO) cells defined by at least three sequentially disposed spaced-apart substrates, a first EO-cell corresponding to an outside portion of the rearview assembly and a second EO-cell disposed between the first EO-cell and the light source; and two linear reflective polarizers disposed on two sequentially disposed substrates from the at least three substrates so as to sandwich an EO-medium of the second EO-cell between said two linear reflective polarizers, wherein a distance between said two linear reflective polarizers does not exceed an aggregate value of thicknesses of said two sequentially disposed substrates and a separation therebetween. 13. A switchable mirror system (SMS) according to claim 12 , wherein the first EO-cell has an EO-medium comprising absorbing and non-absorbing states, and is adapted to be a switchable linear absorptive polarizer that attenuates light reflected from the reflective polarizer in the closest proximity to the first EO-cell and does not substantially attenuate light transmitted from the light source through the second EO-cell, and further wherein said SMS has a reflectance value that is gradually variable in response to changes in voltages applied to the first EO-cell, and as measured in said FOV in ambient light. 14. A switchable mirror system (SMS) according to claim 13 , wherein the reflectance value that is gradually variable is measured in D65 standard illuminant light. 15. A switchable mirror system (SMS) according to claim 13 , wherein the switchable absorptive polarizer is a guest-host liquid-crystal device. 16. A switchable mirror system (SMS) according to claim 12 , wherein the first and second EO-cells share a common substrate. 17. A switchable mirror system (SMS) according to claim 12 , wherein at least one of the two linear reflective polarizer includes multiple layers of plastic film. 18. A switchable mirror system (SMS) according to claim 12 , wherein said distance does not exceed an aggregate value of a thickness of one of the two sequentially disposed substrates and said separation therebetween. 19. A switchable mirror system (SMS) according to claim 12 , wherein said distance does not exceed the separation between said two sequentially disposed substrates. 20. A switchable mirror system (SMS) according to claim 12 , wherein a combination of said two linear reflective polarizers and an EO-medium of the second EO-cell is configured to substantially reflect light having a first polarization and light having a second polarization when no voltage is applied to the second EO-cell, and to substantially transmit light having either the first or the second polarization when a non-zero voltage is applied to the second EO-cell, the first and second polarizations being mutually orthogonal. 21. A switchable mirror system (SMS) according to claim 12 configured within the rearview assembly wherein said light source includes a light emitter and a display, wherein the display is located between the light emitter and said SMS and is illuminated by the light emitter, the rearview assembly further comprising: a third linear reflective polarizer disposed between said SMS and the light emitter so as to increase a level of transmission of polarized light from the display through the SMS to said FOV. 22. A switchable mirror system (SMS) according to claim 21 , wherein said level of transmission of polarized light exceeds 70 percent. 23. A switchable mirror system (SMS) according to claim 21 , wherein said level of transmission of polarized light exceeds 80 percent.