Published:May 19, 2017 7:29 pm
Scientists have created the world’s thinnest hologram that can be seen without 3D goggles and may be integrated into everyday electronics such as smartphones, computers and TVs.
Interactive 3D holograms are a staple of science fiction – from Star Wars to Avatar – but the challenge for scientists trying to turn them into reality is developing holograms that are thin enough to work with modern electronics.
Now, researchers led by RMIT University in Australia have designed a nano-hologram that is simple to make, can be seen without 3D goggles and is 1,000 times thinner than a human hair.
“Conventional computer-generated holograms are too big for electronic devices but our ultrathin hologram overcomes those size barriers,” said Min Gu, Professor at RMIT. “Our nano-hologram is also fabricated using a simple and fast direct laser writing system, which makes our design suitable for large-scale uses and mass manufacture,” Gu said.
Integrating holography into everyday electronics would make screen size irrelevant – a pop-up 3D hologram can display a wealth of data that does not neatly fit on a phone or watch. “From medical diagnostics to education, data storage, defence and cyber security, 3D holography has the potential to transform a range of industries and this research brings that revolution one critical step closer,” Gu said.
Conventional holograms modulate the phase of light to give the illusion of three-dimensional depth. However, to generate enough phase shifts, those holograms need to be at the thickness of optical wavelengths. The RMIT team, working with the Beijing Institute of Technology (BIT) in China, has broken this thickness limit with a 25 nanometre hologram based on a topological insulator material – a novel quantum material that holds the low refractive index in the surface layer but the ultrahigh refractive index in the bulk.
The topological insulator thin film acts as an intrinsic optical resonant cavity, which can enhance the phase shifts for holographic imaging.”The next stage for this research will be developing a rigid thin film that could be laid onto an LCD screen to enable 3D holographic display,” said Zengyi Yue, who co-authored the research paper published in the journal Nature Communications.
“This involves shrinking our nano-hologram’s pixel size, making it at least 10 times smaller. “But beyond that, we are looking to create flexible and elastic thin films that could be used on a whole range of surfaces, opening up the horizons of holographic applications,” said Yue.
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