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核磁共振 Nuclear Magnetic Resonance (NMR)

核磁共振 Nuclear Magnetic Resonance (NMR). 具有磁矩的原子核在外加磁場中有若干量子狀態, 狀態間的能量差與外加磁場強度成正比。可發射適 當頻率的電磁波,引起共振。. 核磁共振是利用具有自旋角動量的原子核在磁場下能階分裂的一基本現象所發展出來的。 磁矩 m=gIh ( 此時 g=2.6753xl04 radians sec-1 guass-1)

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核磁共振 Nuclear Magnetic Resonance (NMR)

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  1. 核磁共振 Nuclear Magnetic Resonance (NMR) 具有磁矩的原子核在外加磁場中有若干量子狀態, 狀態間的能量差與外加磁場強度成正比。可發射適 當頻率的電磁波,引起共振。

  2. 核磁共振是利用具有自旋角動量的原子核在磁場下能階分裂的一基本現象所發展出來的。核磁共振是利用具有自旋角動量的原子核在磁場下能階分裂的一基本現象所發展出來的。 磁矩m=gIh (此時g=2.6753xl04 radians sec-1 guass-1) 在古典觀念上如同一個帶電球體自旋,因此具有磁矩而與外加磁場作用,其所允許之量子態為2I+1等於2個,即是m(磁量)等於 m1/2gHh (可想像成順磁場和逆磁場約兩個能態)。在無外加磁場下,這二個量子態能量相等(degeneracy),因此也就無法得核磁共振,但若加入一個外加磁場和磁量作用,此二個量子態便能分裂,它們之間形成了一個能量差,依照波茲曼分配率,此種磁核在高能階狀態的分佈較少,在低能階狀態的分佈多,若在垂直於磁場方向加入無線電磁波於此系統,其頻率(n)剛好對應於這二個能階之差(hn),它就誘發了這二個能階上分佈的轉移,此時高能階上的分佈,若激發所用的電磁波強度夠大時,高能階之分佈開始大於波茲曼分佈律所得的結果,若高低能階分佈相等 ,則達到飽和現象。

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