学术文献库

One of the must important non-invasive techniques in medicine is the Magnetic Resonance Imaging (MRI), it is used to obtain information of the structure of the human body parts using three dimensional images. The technique to obtain these images is based by the emission of radio waves produced by the protons of the hydrogen atoms in water molecules when placed in a constant magnetic field after they interact with a pulsed radio frequency (RF) current, the spin of the protons are in a spin excited state. When the RF field is turned off, the MRI sensors are able to detect the energy released (RF waves) as the protons realign their spins with the magnetic field. We used a three particles model for the water molecule: the two protons from the hydrogen atoms move around the doubly negatively charged oxygen (unstructured), to describe the total angular momentum. The energy levels from the water molecule are studied in presence of an uniform external magnetic field, which interacts with the proton's spin and orbital angular momentum. The energy is shifted and the degeneration is lifted. To illustrate the results, we provide numerical results for a magnetic field strength commonly used in MRI devices.