"The feeling of the tactile sensation is like a gently spraying your hand with pressurised air." Our system directs and focuses this energy, which can then stimulate your skin to feel content," Hirayama told AFP by email. "Even if not audible to us, ultrasound is still a mechanical wave and it carries energy through the air. One of the scientists, Ryuji Hirayama, explained how this last feature-so crucial to making the object seem real-works. Since the system is based on sound waves, it allows the hologram to be heard and even felt. "Our system traps a particle acoustically and illuminates it with red, green and blue light to control its colour as it quickly scans the display volume," the team said. This uses what is known as "acoustophoresis"- sound waves that move and manipulate an object, in this case particles-to form an image in a small box containing arrays of very small speakers. To fill in the picture, so to speak, the team created a prototype called Multimodal Acoustic Trap Display (MATD) which "can simultaneously deliver visual, auditory and tactile content". Writing in the journal Nature, a team at the University of Sussex in southern England, said technology currently in use can create 3-D images but they are slow, short-lived and "most importantly, rely on operating principles that cannot produce tactile and auditive content as well". Now scientists in Britain say they can make even more realistic 3-D versions-a butterfly, a globe, an emoji-which can be seen with the naked eye, heard and even felt without the need for any virtual reality systems.
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