Tunable liquid microlens with lubrication assisted electrowetting
First Claim
1. A tunable liquid microlens, comprising:
- an insulating layer;
a droplet of a transparent conducting liquid;
a lubricating layer disposed on a first surface of said insulating layer and between said droplet and said insulating layer; and
a plurality of electrodes insulated from said droplet by said insulating layer and said lubricating layer, said plurality of electrodes being disposed such that they may be selectively biased to create a respective voltage potential between said droplet and each of said plurality of electrodes, whereby an angle between said droplet and a plane parallel to said first surface of said insulating layer may be varied and said droplet may be repositioned relative to said insulating layer.
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Accused Products
Abstract
A tunable liquid microlens includes an insulating layer, a droplet of a transparent conducting liquid, and a lubricating layer disposed on a first surface of the insulating layer and between the droplet and the insulating layer. The microlens also includes a plurality of electrodes insulated from the droplet by the insulating layer and the lubricating layer, the plurality of electrodes being disposed such that they may be selectively biased to create a respective voltage potential between the droplet and each of the plurality of electrodes, whereby an angle between the droplet and a plane parallel to the first surface of the insulating layer may be varied and the droplet may be repositioned relative to the insulating layer.
240 Citations
34 Claims
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1. A tunable liquid microlens, comprising:
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an insulating layer;
a droplet of a transparent conducting liquid;
a lubricating layer disposed on a first surface of said insulating layer and between said droplet and said insulating layer; and
a plurality of electrodes insulated from said droplet by said insulating layer and said lubricating layer, said plurality of electrodes being disposed such that they may be selectively biased to create a respective voltage potential between said droplet and each of said plurality of electrodes, whereby an angle between said droplet and a plane parallel to said first surface of said insulating layer may be varied and said droplet may be repositioned relative to said insulating layer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
a conductive transparent substrate disposed along a second surface of said insulating layer, said second surface being opposite said first surface; and
a conductive lead coupling said droplet to said conductive transparent substrate.
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7. The tunable liquid microlens of claim 1, further comprising a transparent supporting substrate disposed along a second surface of said insulating layer, said second surface being opposite said first surface.
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8. The tunable liquid microlens of claim 1, wherein said insulating layer is a substantially planar substrate characterized by a relatively high dielectric strength.
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9. The tunable liquid microlens of claim 1, wherein said droplet is substantially encompassed by a liquid that is immiscible with said droplet, said liquid protecting said droplet from evaporation.
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10. The tunable liquid microlens of claim 1, wherein said droplet is substantially surrounded by a lubricating liquid that is immiscible with said droplet, said lubricating liquid including said lubricating layer.
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11. The tunable liquid microlens of claim 1, wherein said lubricating layer includes a relatively low surface energy liquid.
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12. The tunable liquid microlens of claim 1, wherein said lubricating layer includes a silicone oil.
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13. A method of tuning a liquid microlens, said liquid microlens including a droplet of a transparent conducting liquid, an insulating layer, and a lubricating layer disposed on a first surface of said insulating layer and between said droplet and said insulating layer, comprising the step of:
selectively biasing a plurality of electrodes insulated from said droplet by said insulating layer and said lubricating layer to create a respective voltage potential between said droplet and each of said plurality of electrodes. - View Dependent Claims (14, 15, 16)
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17. An apparatus, including:
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a transmitter, said transmitter providing an optical signal;
a receiver, said receiver receiving said optical signal; and
a tunable liquid microlens disposed to direct said optical signal from said transmitter to said receiver, said tunable liquid microlens comprising;
an insulating layer;
a droplet of a transparent conducting liquid;
a lubricating layer disposed on a first surface of said insulating layer and between said droplet and said insulating layer; and
a plurality of electrodes insulated from said droplet by said insulating layer and said lubricating layer, said plurality of electrodes being disposed such that they may be selectively biased to create a respective voltage potential between said droplet and each of said plurality of electrodes, whereby an angle between said droplet and a plane parallel to said first surface of said insulating layer may be varied and said droplet may be repositioned relative to said insulating layer, whereby a focal length and a lateral position of a focal spot of said microlens are adjusted to direct said optical signal from said transmitter to said receiver. - View Dependent Claims (18, 19, 20, 21, 22, 23, 24, 25, 26, 27)
a conductive transparent substrate disposed along a second surface of said insulating layer, said second surface being opposite said first surface; and
a conductive lead coupling said droplet to said conductive transparent substrate.
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22. The apparatus of claim 17, wherein said tunable liquid microlens further comprises a transparent supporting substrate disposed along a second surface of said insulating layer, said second surface being opposite said first surface.
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23. The apparatus of claim 17, wherein said insulating layer is a substantially planar substrate characterized by a relatively high dielectric strength.
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24. The apparatus of claim 17, wherein said droplet is substantially encompassed by a liquid that is immiscible with said droplet, said liquid protecting said droplet from evaporation.
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25. The apparatus of claim 17, wherein said droplet is substantially surrounded by a lubricating liquid that is immiscible with said droplet, said lubricating liquid including said lubricating layer.
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26. The apparatus of claim 17, wherein said lubricating layer includes a relatively low surface energy liquid.
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27. The apparatus of claim 26, wherein said lubricating layer includes a silicone oil.
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28. A method of transmitting an optical signal, comprising the steps of:
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directing said optical signal from a first location towards a liquid microlens, said liquid microlens including a droplet of a transparent conducting liquid, an insulating layer, and a lubricating layer disposed on a first surface of said insulating layer and between said droplet and said insulating layer; and
tuning said liquid microlens to redirect said optical signal, said tuning step comprising the step of;
selectively biasing a plurality of electrodes insulated from said droplet by said insulating layer to create a respective voltage potential between said droplet and each of said plurality of electrodes. - View Dependent Claims (29, 30, 31)
whereby a focal length of said liquid microlens is adjusted. -
30. The method of claim 28, wherein said step of selectively biasing includes the step of selectively biasing said plurality of electrodes to reposition said droplet relative to said insulating layer,
whereby a lateral position of a focal spot of said liquid microlens is adjusted. -
31. The method of claim 28, wherein said step of selectively biasing includes the the following steps:
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selectively biasing said plurality of electrodes to vary an angle between said droplet and a plane parallel to said first surface of said insulating layer, whereby a focal length of said tunable liquid microlens is adjusted, and selectively biasing said plurality of electrodes to reposition said droplet relative to said insulating layer, whereby a lateral position of a focal spot of said liquid microlens is adjusted.
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32. A tunable liquid microlens, comprising:
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means for insulating;
transparent fluidic conducting means;
lubricating means disposed on a first surface of said insulating means and between said insulating means and said transparent fluidic conducting means; and
means for varying an angle between said transparent fluidic conducting means and a plane parallel to a first surface of said means for insulating and for repositioning said transparent fluidic conducting means relative to said insulating means. - View Dependent Claims (33, 34)
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Specification