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In quantum optics, superradiance is a phenomenon that occurs when a group of N emitters, such as excited atoms, interact with a common light field. If the wavelength of the light is much greater than the separation of the emitters, then the emitters interact with the light in a collective and coherent fashion.[2] This causes the group to emit light as a high intensity pulse (with rate ∝ N2). This is a surprising result, drastically different from the expected exponential decay (with rate ∝ N) of a group of independent atoms (see spontaneous emission). Superradiance has since been demonstrated in a wide variety of physical and chemical systems, such as quantum dot arrays [3] and J-aggregates.[4] The effect has recently been used to produce a superradiant laser.

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量子光学における超放射とき N エミッタ、励起原子などのグループに発生する現象である、共通のライト フィールドとの対話します。光の波長のエミッタの分離よりもはるかに大きい場合は、集団的かつ一貫した方法で光とエミッタが対話します。[2] これにより、光を放出するグループ

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Superradiance in quantum optics when groups of N emitters and excited atoms caused, which interact with the field of the common. Interact with light and emitter in than the wavelength of the light emitter separation much greater collective and coherent manner. This [2]

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N ヒーターおよび励起原子のグループになった場合、共通のフィールドと相互作用する量子光学における超放射。やり取りされる光とエミッタの発光体分離の波長より多くの大きい集団と一貫した方法。この [2]

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Superradiance in interacting with the common field when a group of N emitters and excited atoms in quantum optics. A way that is consistent with the large populations of many wavelengths that interact with light and emitter emitter separation. [2]

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量子力学でNエミッタと励起原子のグループが共通の場と相互作用する際の超放射。光とエミッタのエミッタ分離と相互作用する多数の波長の大きな集団と一致する方法。 [2]

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Super radiation interacts with a common group of N emitters and excited atoms in quantum mechanics. How to match a large number of wavelengths interacting with the light-emitter emitter separation group. [2]

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スーパーの放射線は、N エミッタと量子力学における励起原子の一般的なグループとやり取りします。波長光エミッタ エミッタ分離グループとの相互作用の数が多いを一致させる方法。[2]

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Super radiation will interact with most common groups of atoms of N emitters and quantum mechanics. A large number of interacting with wavelength light emitter emitter separation group how to match. [2]

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スーパーの放射線は、原子 N ヒーターおよび量子力学の最も一般的なグループと対話します。波長発光体エミッタ分離グループと一致させる方法の相互作用の数が多い。[2]

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Super radiation that interacts with the most common groups of atoms N heating and quantum mechanics. Lots of ways to match the wavelength light emitter emitter separation group interaction. [2]

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原子炉の最も一般的なグループであるN加熱と量子力学と相互作用する超放射。波長発光体エミッタ分離グループの相互作用を一致させる多くの方法。 [2]

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Super heat radiation which interacts with N heating and quantum mechanics, the most common group of reactors. Many ways to match the interaction of the wavelength emitter emitter separation group. [2]

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最も一般的な原子炉のグループであるN加熱および量子力学と相互作用する超熱放射。波長エミッタエミッタ分離グループの相互作用に合致する多くの方法。 [2]

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Superheat radiation that interacts with N heating and quantum mechanics, which is the most common group of reactors. Many methods that match the interaction of wavelength emitter emitter isolation groups. [2]

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最も一般的な原子炉のグループであるN加熱および量子力学と相互作用する過熱放射。波長エミッタエミッタ分離グループの相互作用に適合する多くの方法。 [2]

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Overheating radiation that interacts with N heating and quantum mechanics, which is the most common group of reactors. Many ways to adapt to the interaction of wavelength emitter emitter isolation groups. [2]

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原子炉の最も一般的なグループであるN加熱と量子力学と相互作用する過熱放射線。波長エミッタエミッタ分離グループの相互作用に適応する多くの方法。 [2]

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Overheating radiation that interacts with N heating and quantum mechanics, the most common group of reactors. Many ways to adapt to the interaction of wavelength emitter emitter isolation groups. [2]

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最も一般的な原子炉のグループであるN加熱および量子力学と相互作用する過熱放射線。波長エミッタエミッタ分離グループの相互作用に適応する多くの方法。 [2]

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Overheating radiation that interacts with heating and quantum mechanics, which is the most common group of reactors. Many ways to adapt to the interaction of wavelength emitter emitter isolation groups. [2]

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最も一般的な原子炉のグループである加熱と量子力学と相互作用する過熱放射線。波長エミッタエミッタ分離グループの相互作用に適応する多くの方法。 [2]

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Overheating radiation that interacts with heating and quantum mechanics, which is the most common group of reactors. Many ways to adapt to the interaction of wavelength emitter emitter isolation groups. [2]