We have studied dielectric spectra of the glass-forming liquid metafluoroaniline under hydrostatic pressure up to 700 MPa. Its glass transition pressure $p_{\mathrm{g}}$ increases approximately linearly with temperature. Above $p_{\mathrm{g}}(T)$, a well pronounced secondary relaxation, the Johari $\beta$ peak, is observed showing activated behavior. The activation energy rises proportionally to pressure and, consequently, proportionally to the glass transition temperature $T_{\mathrm{g}}(p)$. The activation volume is independent of temperature but exhibits different values for pressures higher and lower than the pressure where the liquid left the ergodic regime. The activation volumes are about $1/10$ and $1/6$ of the molecular volume of fluoroaniline, respectively, suggesting that there are two different species of clusters.

• Received 30 July 2003

DOI:https://doi.org/10.1103/PhysRevLett.92.125701