CFD investigation of airflow on a model radio control race car

The modern day design of vehicles, especially in the racing industry involve a great deal of air flow study. This study shows that drag force adversely affects the forward motion of the car and that there is a difference in the pressure between the air flowing above and below the car. This produces forces along the vertical axis. Aerodynamic forces acting on a car greatly reduces its efficiency. If the car is redesigned to optimise these forces it could produce better results. This paper discusses various techniques that have been used to redesign and optimise the aerodynamics of a model radio control race car

Connecting the one-band and three-band Hubbard models of cuprates via spectroscopy and scattering experiments

The one-band and three-band Hubbard models which describe the electronic structure of cuprates indicate very different values of effective electronic parameters (EPs), such as the Cu on-site Coulomb energy and the Cu-O hybridization strength. In contrast, a comparison of EPs of several cuprates with corresponding values from spectroscopy and scattering experiments indicates similar values in the three-band model and cluster model calculations used to simulate experimental results. To explore this relation in detail, a Cu$_2$O cluster model calculation was carried out to obtain an expression for the Heisenberg exchange coupling $J$ between Cu sites using a downfolding method, taking into account Cu and O on-site correlations ($U_d$ and $U_p$), the charge-transfer energy $\Delta$ and the hopping $t$ between Cu and O sites. A quantitative analysis provides a consistent description of $J$ from neutron scattering experiments, using the three-band model and spectroscopic EPs. In addition, $J$ can be expressed in the one-band Hubbard model form with $\tilde{U}$ and $\tilde{t}$, which denote renormalized $U$ and $t$ using $\Delta$ and $U_p$, and their values indicate a large $\tilde{U}/\tilde{t}$, in agreement with reported values. The large $\tilde{U}/\tilde{t}$ arising from a combination of $U_d$, $U_p$ and $\Delta$ is thus hidden in the effective one-band Hubbard model. The ground-state singlet weights obtained from an exact diagonalization show the importance of the Cu-O Zhang-Rice singlet in the effective one-band Hubbard model. The results provide a consistent method to connect EPs obtained from spectroscopy and the three-band model with values of $J$ obtained from scattering experiments, band dispersion measurements and the effective one-band Hubbard model.Comment: 9 pages, 2 figures (submitted to Physical Review B

Out-of-plane nesting driven spin spiral in ultrathin Fe/Cu(001) films

Epitaxial ultrathin Fe films on fcc Cu(001) exhibit a spin spiral (SS), in contrast to the ferromagnetism of bulk bcc Fe. We study the in-plane and out-of-plane Fermi surfaces (FSs) of the SS in 8 monolayer Fe/Cu(001) films using energy dependent soft x-ray momentum-resolved photoemission spectroscopy. We show that the SS originates in nested regions confined to out-of-plane FSs, which are drastically modified compared to in-plane FSs. From precise reciprocal space maps in successive zones, we obtain the associated real space compressive strain of 1.5+-0.5% along c-axis. An autocorrelation analysis quantifies the incommensurate ordering vector q=(2pi/a)(0,0,~0.86), favoring a SS and consistent with magneto-optic Kerr effect experiments. The results reveal the importance of in-plane and out-of-plane FS mapping for ultrathin films.Comment: 4 pages, 3 figure

Disorder effects in electronic structure of substituted transition metal compounds

Investigating LaNi(1-x)M(x)O3 (M = Mn and Fe), we identify a characteristic evolution of the spectral function with increasing disorder in presence of strong interaction effects across the metal-insulator transition. We discuss these results vis-a-vis existing theories of electronic structure in simultaneous presence of disorder and interaction.Comment: Revtex, 4 pages, 3 postscript figures (To appear in Phys. Rev. Lett

Collapse of the charge ordering gap of Nd_{0.5}Sr_{0.5}MnO_{3} in an applied magnetic field

We report results of tunneling studies on the charge ordering compound Nd_{0.5}Sr_{0.5}MnO_{3} in a magnetic field up to 6T and for temperature down to 25K.We show that a gap (2\Delta_{CO} \approx 0.5eV opens up in the density of state (DOS) at the Fermilevel (E_F) on charge ordering (T_{CO}=150K) which collapses in an applied magnetic field when the charge ordered state melts. There is a clear correspondence between the behavior of the resistivity and the gap formation and its collapse in an applied magnetic field. We conclude that a gap in the DOS at E_F is necessary for the stability of the charge ordered state.Comment: 4 pages REVTeX, 5 postscript figures included, submitted to Phys. Rev. Let