Of Art and Satellites


Reading time ( words)

A quotation from The Golden Record 2.0 — a play written for the NUS Arts Festival — and a high-tech quantum device from the NUS Centre for Quantum Technologies (CQT) is now orbiting in space together. They are being carried by a satellite called SpooQy-1 built by CQT to test a quantum light source that could enable future secure communication. This space mission commemorates three years of art-science collaboration between CQT and the NUS Centre For the Arts (CFA).

“Scientists and artists have in common that they are curious explorers of the world. Through our collaborations, we hope to inspire more people to share our appetite for learning. Even people who think they aren’t interested in science may find they appreciate its value when they encounter it through arts — and vice versa,” said CQT Director Professor Artur Ekert.

In partnership with CFA, CQT Principal Investigator Associate Professor Alexander Ling, who leads the team that built SpooQy-1, selected a quote from The Golden Record 2.0 which was first performed in 2018, to engrave on the outside of the shoebox-sized satellite. The quote is from Mrs Santha Bhaskar, Artistic Director of NUS Indian Dance and recipient of the Singapore Cultural Medallion. It reads, “We are all different nationals, we are entangled together with all the races”, and is etched into a 10cm by 3cm aluminium plate that is part of the satellite’s standard structure.

cqt_satellite_2.jpg

The quote engraved onto the satellite’s structure

The selection of this quote honours Mrs Bhaskar’s long-standing contributions to CFA and her previous collaboration with CQT. Her work Sambhavna was staged in the 2016 and 2017 editions of the NUS Arts Festival. For the two-year development of the project, she was appointed a CQT Outreach Fellow.

The quote celebrates the strength of Singapore’s diversity and a hope for such understanding in a globalised world, said CFA Director, Ms Sharon Tan. “This collaboration with CQT for The Golden Record exemplifies our efforts in encouraging cross disciplinary projects in NUS,” she added.

The quantum device on board SpooQy-1 is designed to create the quantum property of entanglement between pairs of light particles, to work towards developing encryption keys. Renowned physicist Albert Einstein once described this entanglement as “spooky action at a distance” and this is where the satellite’s name was derived.

SpooQy-1 was first launched to the International Space Station in April. It went into orbit from there on 17 June. Since then, the CQT researchers have been in daily contact with the satellite and on 2 July, they switched on the satellite’s scientific instrument to begin making entangled light. The satellite with its two passengers will be in orbit for approximately one year, allowing the research team to gather data on the quantum device’s performance.

Share

Print


Suggested Items

Graphene Goes to Space

06/25/2019 | University of Cambridge
The experiment aims to test the possibilities of printing graphene inks in space. Graphene inks can be used in the production of batteries, supercapacitors, printed electronics, and more. If researchers are able to demonstrate how these inks work in space, astronauts could potentially print their own devices on the go, or they can repair electronics with graphene ink printers.

What Is an Atomic Clock?

06/20/2019 | NASA
Developed by NASA's Jet Propulsion Laboratory in Pasadena, California, the Deep Space Atomic Clock is a serious upgrade to the satellite-based atomic clocks that, for example, enable the GPS on your phone.

How Mission Control Used Robotics to Successfully Restore Full Power for the Space Station

05/13/2019 | NASA
Using complex robotic work to perform critical maintenance allows astronauts to spend more time working on scientific experiments and helps develop better technologies and procedures for future human and robotic exploration beyond low-Earth orbit.



Copyright © 2019 I-Connect007. All rights reserved.