From sandbox modeling to paleoseismology: preliminary results on bending-moment faults modeling.

Are bending-moment fault a good proxy to assess the timing of movement of underlying deeper structures? We made use of a series of sand-box experiments in order to model bending-moment faults generation and growth during progressive folding. Syn-growth sedimentation was included into the model. Our results indicated that displacement, at surface, is cumulating regularly along these structures, even when lateral propagation is inhibited, thus assuring a good reliability for the cross-section analysis of these structures (i.e. paleoseismological studies) and implying that bending-moment fault growth and associated folding could be put in relation through kinematic modelling

New developments in onshore paleoseismic methods, and their impact on Quaternary tectonic studies

Since the publication of Paleoseismology (2nd Edition) in 2009, there has been no comprehensive survey of new trends in Quaternary tectonics. This paper seeks to remedy that situation, by describing the new technologies and interpretations that arose over the past decade. The major technological advances have been in remote sending, e.g., unpiloted aerial vehicles (drones); airborne laser scanning (lidar); terrestrial laser scanning; 3D topographic surveys from Structure-from-Motion; and satellite geodesy such as D-InSAR. Advances have also been made in dating Quaternary deposits, including single-grain luminescence dating (in the laboratory), and portable optically-stimulated luminescence dating (in the field). Geophysical surveys are now a common component of neotectonic investigations, permitting a more formal, 3D integration of subsurface data with surface data. These techniques have lowered the threshold of recognition to smaller and smaller earthquakes, and allowed detection of off-fault deformation such as distributed faulting and folding. We are now collecting so much data that quality control of coseismic field measurements has become an issue, especially when assembling data sets made of old and new data. Soon this data problem will force a reassessment of our time-honored interpretive paradigms, most of which originated in the 1970s and 80s in the early days of neotectonics

Construction of an internally B₃N₃-doped nanographene molecule

The synthesis of a hexa-peri-hexabenzocoronene (HBC) with a central borazine core is described. The solid state structure of this BN doped HBC (BN-HBC) is isotypic with that of parent HBC. Scanning tunneling microscopy shows that BN-HBC lies flat on Au(111) in a two-dimensional pattern.PostprintPostprintPeer reviewe