通过将这两块细小的金属片冷却到大约零下四百五十华式度,并用大约一微米宽的间隔将其分开,这块铝片表现出了与单个原子非常相似的行为。
By cooling those two tiny metal plates to around -450 degrees Fahrenheit and separating them only by a nanometer-sized gap, their setup allowed the aluminum to act much like a single atom.
与此同时,冷却系统使环超流氦沿对撞机的加速环循环,使其温度保持在零下271.3摄氏度(零下456.34华氏度)。
Meanwhile, the cooling system that circulates superfluid helium around the LHC's accelerator ring keeps the machine at minus 271.3 degrees Celsius (minus 456.34 degrees Fahrenheit).
实验利用了一种单层离子势阱,并将其浸在液氦浴中冷却到零下269摄氏度。
The experiments were made possible by a novel, one-layer ion trap cooled to minus 269 C (minus 452 F) with a liquid helium bath.
冰核活性细菌能显著提高昆虫的过冷却点,使之在较高的零下温度发生结冰。
It is well known that ice-nucleating active (INA) bacteria can significantly elevate SCP of certain species of insects, thereby freeze occurs at higher temperature.
冰核活性细菌能显著提高昆虫的过冷却点,使之在较高的零下温度发生结冰。
It is well known that ice-nucleating active (INA) bacteria can significantly elevate SCP of certain species of insects, thereby freeze occurs at higher temperature.
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