In column chromatography, when an analyte is introduced as a narrow band at the top of the column, the solutes begin to separate and broaden, developing a Gaussian profile. This broadening occurs due to various factors, such as longitudinal diffusion.

Longitudinal diffusion occurs when the solute molecules in the mobile phase diffuse from the more concentrated center of the chromatographic band to the more dilute regions on either side, both towards and against the flow direction. This diffusion process is driven by the concentration gradient and the analyte's diffusion coefficient, which measures a substance's mobility in a given medium.

The impact of the diffusion process on gas and liquid chromatography varies due to differences in the diffusion coefficients of analytes in gaseous and liquid mobile phases. In gas chromatography GC, the diffusion coefficients of gaseous molecules are much larger than those in liquids, resulting in higher rates of longitudinal diffusion and greater band broadening. Consequently, longitudinal diffusion is more significant in gas chromatography (GC) than in liquid chromatography (LC).

In liquid chromatography (LC), the diffusion rates are much smaller, making longitudinal diffusion less significant for band broadening. However, it is essential to note that the contribution of longitudinal diffusion to plate height is inversely proportional to the linear velocity of the eluent. This means that when the flow rate is high, the analyte spends less time in the column, and diffusion from the center of the band to the edges has less time to occur, reducing the impact of longitudinal diffusion on band broadening.