ultrahighfield

Ultrahighfield refers to magnetic field strengths significantly exceeding those typically used in standard magnetic resonance imaging (MRI). While clinical MRI systems commonly operate at 1.5 or 3 Tesla (T), ultrahighfield systems operate at 7 Tesla (T) and above, with research systems reaching 10.5 T, 11.7 T, and even higher. These extreme fields are achieved through advances in superconducting magnet technology.

The primary benefit of ultrahighfield MRI is a substantial increase in signal-to-noise ratio (SNR). This enhanced

Applications of ultrahighfield MRI are predominantly in research settings, particularly in neuroscience and cardiovascular imaging. In

However, ultrahighfield MRI also presents challenges. The increased magnetic susceptibility effects can lead to image distortions,