視野角40度の2つのメタレンズを使用したシステムにより、CODE V Meta Optic Designモジュールがメタアトムの光学特性の角度依存性を考慮できることが実証されます。 近距離ディスプレイ用小型映像装置 メタフォームミラーを使った近距離ディスプレイ用小型映像装置の例です。メタフォーム素子は...
Provided is a meta-optical device including a meta-lens including a plurality of nano-structures, a band pass filter configured to transmit light of predetermined wavelengths within an operation wavelength band of the meta-lens, and a spacer layer provided between the meta-lens and the band pass...
The 2024.03 release of CODE V also introduces the meta optic design capability. A breakthrough in optical technology, meta optical surfaces are thin, flat surfaces that can augment traditional lenses. These complex surfaces can now be efficiently designe
This position sits within the ARC Centre of Excellence in Transformative Meta-Optical Systems, otherwise known as, TMOS. Your responsibilities will include: Contribute to and publish academic papers and other scholarly outputs to a high academic standard in accordance with the research expectations of...
专利名称:Broadband meta-optical device 发明人:Din-Ping Tsai,Pin-Chieh Wu 申请号:US15599943 申请日:20170519 公开号:US11086051B2 公开日:20210810 专利内容由知识产权出版社提供 专利附图:摘要:The present invention provides an optical component comprising a dielectric layer and a nanorod array; the...
Nanophotonics is a rapidly emerging field in which complex on-chip components are required to manipulate light waves. The design space of on-chip nanophotonic components, such as an optical meta surface which uses sub-wavelength meta-atoms, is often a hi
iPhone17系列Face ID将改进 | 具体来说是将进一步减少组件厚度并提高性能,换用超构光学组件(Meta Optical Elements),如进展顺利有望在iPhone17系列全系普及。 超构光学组件预计会率先在Face ID的发射器中得到应用,2027年之后则有望进一步扩大至接收器。
intuition-based approaches (namely forward design henceforth) by leveraging the toolbox of metasurfaces and metamaterials with waveguide optics (discussed in Sections “Dielectric waveguide-integrated meta-structures”, “Optical meta-fibers”, and “Plasmonic meta-devices for controlling surface waves”)....
reshape(of_meta.rows,of_meta.cols,2)# map the flow vectors in HSV color space for visualizationflow_visual=visualize_optical_flowvectors(flow_vectors)got_visual=TrueexceptStopIteration:breaktry:l_user=l_user.nextexceptStopIteration:break casts toNvDsOpticalFlowMeta, call pyds.NvDsOpticalFlo...
NvDsUserMeta.cast(l_user.data) except StopIteration: break try: # Casting of_user_meta.user_meta_data to pyds.NvDsOpticalFlowMeta of_meta = pyds.NvDsOpticalFlowMeta.cast(of_user_meta.user_meta_data) # Get Flow vectors as np array flow_vectors = pyds.get_optical_flow_vector...