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7: Espectroscopia CW EPR

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    • 7.1: Por qué y cómo se realiza la espectroscopia CW EPR
    • 7.2: Descripción teórica de CW EPR
      Todos los giros en una muestra que tienen la misma frecuencia de resonancia forman un paquete de giro. A continuación también asumimos que todos los giros de un paquete de giro tienen los mismos tiempos de relajación longitudinal y transversal. Si el número de giros en el paquete de giro es suficientemente grande, podemos asignar un vector de magnetización al paquete de giro. La dinámica de este vector de magnetización con magnetización de equilibrio M0 durante la irradiación de microondas se describe mediante las ecuaciones de Bloch en el marco giratorio.

    This page titled 7: Espectroscopia CW EPR is shared under a CC BY-NC 4.0 license and was authored, remixed, and/or curated by Gunnar Jeschke via source content that was edited to the style and standards of the LibreTexts platform.