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In their original work on the theoretical foundations of Cherenkov radiation, Tamm and Frank wrote,"This peculiar radiation can evidently not be explained by any common mechanism such as the interaction of the fast electron with individual atom or as radiative scattering of electrons on atomic nuclei. On the other hand, the phenomenon can be explained both qualitatively and quantitatively if one takes in account the fact that an electron moving in a medium does radiate light even if it is moving uniformly provided that its velocity is greater than the velocity of light in the medium."[4]. However, some misconceptions regarding Cherenkov radiation exist, for example, it is believed that the medium becomes electrically polarized by the particle's electric field. If the particle travels slowly then the disturbance elastically relaxes back to mechanical equilibrium as the particle passes. When the particle is traveling fast enough, however, the limited response speed of the medium means that a disturbance is left in the wake of the particle, and the energy contained in this disturbance radiates as a coherent shockwave. Such conceptions do not have any analytical foundation, as electromagnetic radiation is emitted when charged particles move in a dielectric medium at subluminal velocities which are not considered as Cherenkov radiation.

INTO JAPANESE

元の動作チェレンコフ放射の理論的基礎にタムとフランクが書いた「この独特な放射することができます明らかにない高速電子個々 の原子との相互作用などに共通する機構によって説明や、放射原子核に電子の散乱。その一方で、現象は explai をすることができます。

BACK INTO ENGLISH

On the theoretical foundations of the original behavior cerenkov radiation TAM and Frank wrote "description, nuclear radiation and electron scattering by the apparently common, high speed electronic individual atoms and interaction mechanism unique to radiation that can. On the other hand, can be explai behavior in

INTO JAPANESE

元動作チェレンコフ放射の理論的基礎にタムとフランク書いた」説明、放射能と明らかに一般的な高速電子の個々 の原子との相互作用機構にユニークな電子散乱放射することができます。その一方で、explai の動作をすることができます。

BACK INTO ENGLISH

TAM and Frank wrote in the theoretical foundations of the original behavior cerenkov radiation "describes a clear interaction mechanism and the General high energy electrons each atom and radiation unique electron scattering radiation that can. On the other hand, you can explai behavior.

INTO JAPANESE

タムとフランクを書いた元動作チェレンコフ放射の理論的基礎に"ことができます放射を散乱各原子と放射線ユニークな電子、明確な相互作用機構と一般的な高エネルギー電子説明。その一方で、explai 動作することができます。

BACK INTO ENGLISH

On the theoretical basis of TAM and Frank wrote original works cherenkov radiation "radiation can electronic radiation and scattering atoms for each unique interaction mechanism with clear and general high energy electronic information. On the other hand, you can explai to work.

INTO JAPANESE

理論的にタムとフランクの基礎を書いたオリジナル作品チェレンコフ放射"放射線が電子放射と散乱原子の明確で一般的な高エネルギー電子情報各一意のインタラクション機構。その一方で、動作するように explai ことができます。

BACK INTO ENGLISH

Theoretical basis of TAM and Frank wrote original works cherenkov radiation "radiation is the emission and scattering atoms for a general high energy electronic information each unique in interaction mechanism. On the other hand, to work explai can.

INTO JAPANESE

TAMとフランクの理論的根拠は、オリジナルの作品であるチェレンコフの放射線を書いたものです。「放射線は、相互作用メカニズムに特有の一般的な高エネルギー電子情報のための原子の放出と散乱です。

BACK INTO ENGLISH

Rationale for TAM and Frank is written among original works of cherenkov radiation. "Radiation is the General high energy electronic information that are specific to the interaction mechanisms for Atomic emission and scattering.

INTO JAPANESE

タムとフランクの理論的根拠は、チェレンコフ放射のオリジナル作品の中で書かれています。「放射能は、発光・散乱の相互作用メカニズム固有の一般的な高エネルギー電子情報。

BACK INTO ENGLISH

Rationale for TAM and Frank are written in the original work of cherenkov radiation. "Radiation is the emission and scattering interaction mechanisms inherent general high energy electronic information.

INTO JAPANESE

TAMとフランクの理論的根拠はチェレンコフ放射線の原作に書かれています。 「放射とは、放出と散乱の相互作用メカニズムに内在する一般的な高エネルギー電子情報である。

BACK INTO ENGLISH

The theoretical basis of TAM and Frank is written in the original of Cherenkov radiation. "Radiation is a general high-energy electronic information inherent in the interaction mechanism of emission and scattering.

INTO JAPANESE

TAMとフランクの理論的根拠はチェレンコフ放射の元に書かれています。 「放射は、放射と散乱の相互作用メカニズムに固有の一般的な高エネルギー電子情報である。

BACK INTO ENGLISH

The theoretical grounds of TAM and Frank are written under Cherenkov radiation. "Radiation is a general high-energy electronic information inherent to the interaction mechanism of radiation and scattering.

INTO JAPANESE

TAMとフランクの理論的根拠はチェレンコフ放射の下に書かれている。 「放射線は、放射線と散乱の相互作用メカニズムに固有の一般的な高エネルギー電子情報である。

BACK INTO ENGLISH

The theoretical grounds of TAM and Frank are written under Cherenkov radiation. "Radiation is general high-energy electronic information specific to the interaction mechanism of radiation and scattering.

INTO JAPANESE

TAMとフランクの理論的根拠はチェレンコフ放射の下に書かれている。 「放射線は、放射線と散乱の相互作用メカニズムに特有の一般的な高エネルギー電子情報である。

BACK INTO ENGLISH

The theoretical grounds of TAM and Frank are written under Cherenkov radiation. "Radiation is a general high-energy electronic information specific to the interaction mechanism of radiation and scattering.

INTO JAPANESE

タムとフランクの理論的根拠はチェレンコフ放射の下で書かれました。「放射線は放射と散乱の相互作用メカニズムに固有の一般的な電子のエネルギー情報。

BACK INTO ENGLISH

Rationale for TAM and Frank was written under the cherenkov radiation. "Radiation is the General energy information inherent in the interaction of radiation and scattering.

INTO JAPANESE

タムとフランクの理論的根拠は、チェレンコフ放射の下で書かれていた。「放射線は放射と散乱の相互作用における固有一般的なエネルギー情報。

BACK INTO ENGLISH

Rationale for TAM and Frank was written under the cherenkov radiation. "Radiation is a unique general energy information on the interaction between radiation and scattering.

INTO JAPANESE

タムとフランクの理論的根拠は、チェレンコフ放射の下で書かれていた。「放射線は放射と散乱の相互作用についてユニーク一般的なエネルギーです。

BACK INTO ENGLISH

Rationale for TAM and Frank was written under the cherenkov radiation. "Radiation is a unique general energy about the interaction between radiation and scattering.

INTO JAPANESE

タムとフランクの理論的根拠は、チェレンコフ放射の下で書かれていた。「放射線は放射と散乱の相互作用についてユニーク一般的なエネルギーです。

BACK INTO ENGLISH

Rationale for TAM and Frank was written under the cherenkov radiation. "Radiation is a unique general energy about the interaction between radiation and scattering.

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