A strong coupling critique of spin fluctuation driven charge order in underdoped cuprates

Charge order has emerged as a generic feature of doped cuprates, leading to important questions about its origin and its relation to superconductivity. Recent experiments on two classes of hole doped cuprates indicate a novel d-wave symmetry for the order. These were motivated by earlier spin fluctuation theoretical studies based on an expansion about hot spots in the Brillouin zone that indicated such order would be competitive with d-wave superconductivity. Here, we reexamine this problem by solving strong coupling equations in the full Brillouin zone. Our results find that bond-oriented order, as seen experimentally, is strongly suppressed, indicating that the charge order must have a different origin.Comment: 5 pages, 4 figures plus Supplemental material

s±_\pm pairing near a Lifshitz transition

Observation of robust superconductivity in some of the iron based superconductors in the vicinity of a Lifshitz point where a spin density wave instability is suppressed as the {hole} band drops below the Fermi energy raise questions for spin-fluctuation theories. Here we discuss spin-fluctuation pairing for a bilayer Hubbard model, which goes through such a Lifshitz transition. We find s$_\pm$ pairing with a transition temperature that peaks beyond the Lifshitz point and a gap function that has essentially the same magnitude but opposite sign on the incipient hole band as it does on the electron band that has a Fermi surface.Comment: 4 pages, 5 figure

Modification of collector of Electro spinning Machine for the fabrication of 3-D nanofibrous scaffold for Tissue Engineering applications

The present work deals with the modification of collector system of the existing Free liquid surface type electrospinning machine to prepare 3-D Nanofibrous scaffold. Initially the trial has been given to prepare 2-D electrospun nanofibers using PVA polymer solution. To make 3-D nanofibrous scaffold, a cylindrical pipe made up of plastic material with required diameter was introduced as the collector. A motor attached to the collector to rotate at its horizontal axis thus acting as a guide to the charged polymer jet to let it deposit around its curved surface area. The cylindrical-shaped nanofibrous PVA scaffolds were then prepared that can be useful for tissue engineering application especially in the development of vascular blood vessels implant

Baryon Inhomogeneity Generation in the Quark-Gluon Plasma Phase

We discuss the possibility of generation of baryon inhomogeneities in a quark-gluon plasma phase due to moving Z(3) interfaces. By modeling the dependence of effective mass of the quarks on the Polyakov loop order parameter, we study the reflection of quarks from collapsing Z(3) interfaces and estimate resulting baryon inhomogeneities in the context of the early universe. We argue that in the context of certain low energy scale inflationary models, it is possible that large Z(3) walls arise at the end of the reheating stage. Collapse of such walls could lead to baryon inhomogeneities which may be separated by large distances near the QCD scale. Importantly, the generation of these inhomogeneities is insensitive to the order, or even the existence, of the quark-hadron phase transition. We also briefly discuss the possibility of formation of quark nuggets in this model, as well as baryon inhomogeneity generation in relativistic heavy-ion collisions.Comment: 11 pages, 2 figures, revtex4, more detailed discussion added about formation and evolution of Z(3)domain walls in the univers