Low‐wavenumber dynamics of L‐alanine

Abstract

AbstractL‐Alanine is one of the simplest amino acids, the building block for many polypeptides and proteins. A previous Raman scattering study showed an anomalous temperature dependence of the intensity of the two lowest Raman modes, attributed to dynamic localization of vibrational energy. The present Raman data, collected in the b(cc)b scattering geometry, were aimed at understanding the dynamics of the low‐wavenumber modes in connection with the reported anomalies in other physical properties. Our study shows that the energy and intensity of the observed external modes show unusual behaviour in the temperature range ∼150–250 K. The anomalous temperature dependence of the peak of the NH3+ torsional mode is confirmed. Its wavenumber has a singularity around ∼220 K and its full width at half‐maximum does not increase linearly with temperature. The CH3 torsion and CO2− rock undergo similar discontinuities below ∼250 K. The intensity of the two lowest wavenumbers librons at 42 and 48 cm−1 shows an anomalous temperature dependence and vary in an opposite way from that reported for the c(bb)a scattering geometry. The nature of the subtle symmetry breaking occuring below ∼250 K is discussed. Copyright © 2005 John Wiley & Sons, Ltd.