Ali Ahmad’s Post

The telescope was created by Johns Hopkins University and launched on July 1. The purpose of this research is to achieve the maximum magnification under the smallest effective aperture while ensuring the luminous flux and resolution angle of the telescope. The telescope attempts to use nano-engraving technology, nano-array technology, mesoporous mounting technology, film inlay technology, and nano-optical materials for the first time to make the lens flatness error reach 10nm. The luminous flux reaches 30 times that of ordinary telescopes with the same aperture. https://lnkd.in/dN67snyS Shopenzer, Inc. #ExploreBeyond #TelephotoMagic

The telescope was created by Johns Hopkins University and launched on July 1. The purpose of this research is to achieve the maximum magnification under the smallest effective aperture while ensuring the luminous flux and resolution angle of the telescope. The telescope attempts to use nano-engraving technology, nano-array technology, mesoporous mounting technology, film inlay technology, and nano-optical materials for the first time to make the lens flatness error reach 10nm. The luminous flux reaches 30 times that of ordinary telescopes with the same aperture. Link to buy: https://lnkd.in/gRUzDEYy Shopenzer, Inc. #ExploreBeyond #TelephotoMagic

The telescope was created by Johns Hopkins University and launched on July 1. The purpose of this research is to achieve the maximum magnification under the smallest effective aperture while ensuring the luminous flux and resolution angle of the telescope. The telescope attempts to use nano-engraving technology, nano-array technology, mesoporous mounting technology, film inlay technology, and nano-optical materials for the first time to make the lens flatness error reach 10nm. The luminous flux reaches 30 times that of ordinary telescopes with the same aperture. Link to buy: https://lnkd.in/d3Mj42-k Kicklo #ExploreBeyond #TelephotoMagic

The telescope was created by Johns Hopkins University and launched on July 1. The purpose of this research is to achieve the maximum magnification under the smallest effective aperture while ensuring the luminous flux and resolution angle of the telescope. The telescope attempts to use nano-engraving technology, nano-array technology, mesoporous mounting technology, film inlay technology, and nano-optical materials for the first time to make the lens flatness error reach 10nm. The luminous flux reaches 30 times that of ordinary telescopes with the same aperture. Link to buy: https://lnkd.in/d_YMCTEB Kicklo #ExploreBeyond #TelephotoMagic

The telescope was created by Johns Hopkins University and launched on July 1. The purpose of this research is to achieve the maximum magnification under the smallest effective aperture while ensuring the luminous flux and resolution angle of the telescope. The telescope attempts to use nano-engraving technology, nano-array technology, mesoporous mounting technology, film inlay technology, and nano-optical materials for the first time to make the lens flatness error reach 10nm. The luminous flux reaches 30 times that of ordinary telescopes with the same aperture. https://lnkd.in/eT9EfvrM #ExploreBeyond #TelephotoMagic

● The telescope was created by Johns Hopkins University and launched on July 1. The purpose of this research is to achieve the maximum magnification under the smallest effective aperture while ensuring the luminous flux and resolution angle of the telescope. ● The telescope attempts to use nano-engraving technology, nano-array technology, mesoporous mounting technology, film inlay technology, and nano-optical materials for the first time to make the lens flatness error reach 10nm. The luminous flux reaches 30 times that of ordinary telescopes with the same aperture. Link to buy: https://lnkd.in/dpaWEUkW Kicklo #ExploreBeyond #TelephotoMagic