Scientists build the world's most precise clock using an atomic nucleus

科學家利用原子核打造出全球最精確的時鐘

更新於: 2026年6月12日上午11:15

Scientists have achieved a monumental breakthrough in the world of timekeeping by developing the first nuclear clock.

科學家們研發出首個核時鐘，在計時領域取得了里程碑式的重大突破。

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For decades, our most precise tools for measuring time have been atomic clocks, which track the vibrations of electrons.

幾十年來，我們測量時間最精密的工具是原子鐘，它透過追蹤電子的震盪來運作。

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However, because electrons are easily influenced by external magnetic and electric fields, they are susceptible to interference.

然而，由於電子容易受到外部磁場和電場的影響，因此極易受到干擾。

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To solve this, researchers have turned their focus inward to the atomic nucleus.

為了解決這個問題，研究人員將目光轉向了原子核內部。

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By utilizing the Thorium-229 isotope, scientists have created a clock that relies on nuclear transitions rather than electronic ones.

科學家們利用釷-229同位素，創造出一種依賴核躍遷而非電子躍遷的時鐘。

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The nucleus is far more compact and resilient, offering a level of stability that could surpass current technology by orders of magnitude.

原子核結構更為緊湊且強韌，其穩定性可能比現有技術高出數個數量級。

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The key to this success was finding the right energy "switch"—a transition low enough to be triggered by vacuum-ultraviolet lasers.

這項成功的關鍵在於找到合適的能量「開關」，即一種足以被真空紫外光雷射激發的低能量躍遷。

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By moving from the electron cloud to the heart of the atom, we have entered a new era of precision that promises to redefine our understanding of the universe.

透過從電子雲跨越到原子核心，我們進入了一個精確度的新紀元，這有望重新定義我們對宇宙的理解。

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What is the primary difference between a traditional atomic clock and the new nuclear clock?

Atomic clocks rely on electron transitions, whereas nuclear clocks use the atomic nucleus.

Atomic clocks use mechanical gears, while nuclear clocks use digital pulses.

Nuclear clocks are powered by radioactive decay rather than lasers.

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Atomic clocks rely on electron transitions, whereas nuclear clocks use the atomic nucleus.

Why is the Thorium-229 isotope essential to this new technology?

It has a nuclear transition at an energy level accessible by current laser technology.

It is the heaviest element known, providing maximum stability.

It is the only element that does not require a laser to function.

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It has a nuclear transition at an energy level accessible by current laser technology.

What is a major advantage of using the atomic nucleus for timekeeping?

It is much smaller and more tightly bound, making it resilient to environmental noise.

The nucleus is highly susceptible to external electromagnetic interference.

The nucleus is much larger, making it easier to calibrate.

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It is much smaller and more tightly bound, making it resilient to environmental noise.

Which material shift has helped move nuclear clocks closer to real-world application?

Moving from laser excitation to mechanical vibration.

Replacing vacuum-ultraviolet lasers with infrared light.

Transitioning from lab-based crystals to thin-film technology.

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Transitioning from lab-based crystals to thin-film technology.

How could nuclear clocks impact scientific research beyond timekeeping?

They could help test theories beyond the Standard Model and search for dark matter.

They will allow scientists to create new chemical elements.

They will replace the need for electricity in global communication.

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They could help test theories beyond the Standard Model and search for dark matter.

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