Changes

Thorlabs advertises the sale of microlens arrays as of 2024.<ref name="x003">{{cite web | title=Fused Silica Microlens Arrays | website=Thorlabs, Inc. | date=2014-08-11 | url=https://www.thorlabs.com/newgrouppage9.cfm?objectgroup_id=2861 | access-date=2024-07-09}}</ref> Thorlabs has claimed that their lenslet arrays are formed using photolithographic techniques.<ref name="x003"/>

Thorlabs advertises the sale of microlens arrays as of 2024.<ref name="x003">{{cite web | title=Fused Silica Microlens Arrays | website=Thorlabs, Inc. | date=2014-08-11 | url=https://www.thorlabs.com/newgrouppage9.cfm?objectgroup_id=2861 | access-date=2024-07-09}}</ref> Thorlabs has claimed that their lenslet arrays are formed using photolithographic techniques.<ref name="x003"/>

Microlens arrays have been produced with a distance between microlenses of about 125 microns, which is 1/8 of a millimeter.<ref name="u639">{{cite web | title=Plenoptic Cameras: The Future of Imaging | website=YouTube | date=2024-03-06 | url=https://www.youtube.com/watch?v=nyRgcD4VxE8 | access-date=2024-07-09}}</ref><ref name="x003"/>

Microlens arrays have been produced with a distance between microlenses of about 125 microns, which is 1/8 of a millimeter.<ref name="u639">{{cite web | title=Plenoptic Cameras: The Future of Imaging | website=YouTube | date=2024-03-06 | url=https://www.youtube.com/watch?v=nyRgcD4VxE8 | access-date=2024-07-09}}</ref><ref name="x003"/>

To make a plenoptic microlens based display, each microlens should be at the minimum 200 pixels wide and 200 pixels long.

To make a plenoptic microlens based display, each microlens should be at the minimum 200 pixels wide and 200 pixels long.