Japan has introduced the world’s most precise clock, priced at $3.3 million. It is a “strontium optical lattice clock,” which is 100 times more accurate than caesium atomic clocks. The Aether clock OC 020 has the potential to redefine time measurement and support groundbreaking research worldwide.
Japan has unveiled the world’s most precise clock, now available for purchase at $3.3 million. The “Aether clock OC 020,” developed by Kyoto-based Shimadzu Corp, is so accurate that it would take 10 billion years to lose or gain a single second.
This cutting-edge timepiece is classified as a “strontium optical lattice clock.” It surpasses the widely used caesium atomic clocks by a factor of 100 in accuracy. The device, about one meter (three feet) tall with a volume of 250 liters, is more compact than most high-precision clocks, making it suitable for various scientific applications.
Shimadzu Corp aims to sell 10 units over the next three years. Scientists and researchers may use the technology for advancing studies in geophysics, including monitoring tectonic movements. Precision instruments like this play a crucial role in scientific advancements, enabling more detailed observations of time and space.
Optical lattice clocks have previously been installed in Tokyo’s famous Skytree to test the general theory of relativity, which states that “time flows more slowly in places with strong gravity.” This innovative technology offers significant contributions to modern physics and research fields.
Shimadzu is aiming to sell 10 of its clocks over the next three years and hopes its customers will use them to advance scientific research in areas such as the observation of tectonic activity.
With its incredible accuracy, the Aether clock OC 020 could redefine how time is measured and used in research worldwide. As the demand for highly precise instruments grows, this development marks a significant milestone in the scientific community.
This development signifies a significant advancement in timekeeping technology, with potential implications for various scientific fields.
