FIELD: physics.
SUBSTANCE: one side of the glass substrate is applied a masking layer of aluminium with round holes, and the other - a solid aluminium coating with side lengths smaller than the lengths of the sides of the glass substrate, retreating no less than 5 mm from each edge of the glass substrate, and then electrostimulated migration of ions from the molten salt through holes in the masking layer is performed.
EFFECT: creation of microlenses of a larger diameter , which will provide a large focal length and aperture.
1 tbl, 4 dwg
| Title | Year | Author | Number |
|---|---|---|---|
| METHOD OF MANUFACTURE OF INTEGRAL MICRO-LENSES | 2005 |
|
RU2312833C2 |
| METHOD OF MAKING INTEGRATED MICRO-LENSES | 2007 |
|
RU2341474C1 |
| METHOD OF PRODUCING INTEGRATED OPTICAL CIRCUIT ON GLASS SUBSTRATE WITH HORN-SHAPED WAVEGUIDE | 2013 |
|
RU2524460C1 |
| METHOD OF MANUFACTURING INTEGRAL MICROLENSES | 0 |
|
SU1694502A1 |
| METHOD FOR MANUFACTURING OF INTEGRAL MICROLENSES | 1993 |
|
RU2073659C1 |
| INTEGRATED OPTICAL RADIATION DIVIDER | 2006 |
|
RU2338224C2 |
| HEAT-RESISTANT INTEGRAL-OPTICAL RADIATION DIVIDER | 2019 |
|
RU2718669C1 |
| THIN-FILM PLATINUM THERMISTOR ON GLASS SUBSTRATE AND METHOD OF MANUFACTURING THEREOF | 2020 |
|
RU2736630C1 |
| SUSPENSION, CARBON-CONTAINING CELL COMPONENT, METHOD OF APPLYING REFRACTORY BORIDE, METHOD OF PROTECTING CARBON-CONTAINING COMPONENT, MASS OF CARBON-CONTAINING COMPONENT, ELECTROCHEMICAL CELL COMPONENT, METHOD OF INCREASING IMMUNITY TO OXIDATION, ALUMINUM PRODUCTION CELL, AND UTILIZATION OF CELL | 1993 |
|
RU2135643C1 |
| METHOD OF FORMING THIN-FILM PATTERN ON SUBSTRATE | 2015 |
|
RU2613054C1 |
