Wind Variability in BZ Camelopardalis

(Shortened) Sequences of spectra of the nova-like cataclysmic variable (CV) BZ Cam were acquired on 9 nights in 2005-2006 in order to study the time development of episodes of wind activity known to occur frequently in this star. We confirm past results that the P-Cygni absorption components of the lines mostly evolve from a higher expansion velocity to lower velocity as an episode progresses. We also commonly find blueshifted emission components in the Halpha line profile, whose velocities and durations strongly suggest that they are also due to the wind. We suggest that the progression from larger to smaller expansion velocities is due the higher velocity portions of a wind concentration moving beyond the edge of the continuum light of the disk first, leaving a net redward shift of the remaining absorption profile. We also derive a new orbital ephemeris for BZ Cam, using the radial velocity of the core of the HeI 5876AA line, finding P = 0.15353(4). Using this period the wind episodes in BZ Cam are found to be concentrated near inferior conjuction of the emission line source. This result confirms that the winds in nova-like CVs are often phase dependent, in spite of the puzzling implication that such winds lack axisymmetry. We argue that the radiation-driven wind in BZ Cam receives an initial boost by acting on gas that has been lifted above the disk by the interaction of the accretion stream with the disk, thereby imposing flickering time scales onto the wind events, as well as leading to an orbital modulation of the wind due to the non-axisymmetric nature of the stream/disk interaction.Comment: The Astronomical Journal, in pres

Orbit-resolved photometry and echelle spectroscopy of the cataclysmic variable ST LMi during a 2007 high state

We present high-resolution echelle spectra and contemporaneous photometry of the polar ST LMi during a high state in 2007 March. Emission lines at Hα, He I λ5876, and He I λ7065 show similar line profiles over orbital phase and have narrow and broad components. These profile changes with phase are very similar to those reported in earlier high-state studies of ST LMi. The radial velocity curves from double Gaussian fits to the line profiles are interpreted as two crossing curves, neither of which is coincident with the orbital motion of the secondary star. We attribute one component to infall motions near the white dwarf and the other to a gas streaming along magnetic field lines connecting the two stars

Modeling the pore structure of voltage-gated sodium channels in closed, open, and fast-inactivated conformation reveals details of site 1 toxin and local anesthetic binding

In this work molecular modeling was applied to generate homology models of the pore region of the Na v 1.2 and Na v 1.8 isoforms of human voltage-gated sodium channels. The models represent the channels in the resting, open, and fast-inactivated states. The transmembrane portions of the channels were based on the equivalent domains of the closed and open conformation potassium channels KcsA and MthK, respectively. The critical selectivity loops were modeled using a structural template identified by a novel 3D-search technique and subsequently merged with the transmembrane portions. The resulting draft models were used to study the differences of tetrodotoxin binding to the tetrodotoxin-sensitive Na v 1.2 (EC50: 0.012μM) and -insensitive Na v 1.8 (EC50: 60μM) isoforms, respectively. Furthermore, we investigated binding of the local anesthetic tetracaine to Na v 1.8 (EC50: 12.5μM) in resting, conducting, and fast-inactivated state. In accordance with experimental mutagenesis studies, computational docking of tetrodotoxin and tetracaine provided (1) a description of site 1 toxin and local anesthetic binding sites in voltage-gated sodium channels. (2) A rationale for site 1 toxin-sensitivity versus -insensitivity in atomic detail involving interactions of the Na v 1.2 residues F385-I and W943-II. (3) A working hypothesis of interactions between Na v 1.8 in different conformational states and the local anesthetic tetracaine. Figure Tetracaine in complex with Nav1.8 in fast-inactivated form. The ligand is represented in CPK and colored by atom type. Ribbons and amino acids are colored by domain: yellow = domain I, blue = domain II, green = domain III, red = domain IV, pink = inactivation gate. Main interaction partners are shown in CPK. a) Tetracaine bound to the inner vestibule. View along the membrane plane. b) Same view as in a but limited to main interaction partners only. The polar head group of tetracaine interacts with the DEKA-motif residues, its hydrophobic tail with the hydrophobic and mainly aromatic residues of S6-IV and the inactivation gat

A Cryptographic Moving-Knife Cake-Cutting Protocol

This paper proposes a cake-cutting protocol using cryptography when the cake is a heterogeneous good that is represented by an interval on a real line. Although the Dubins-Spanier moving-knife protocol with one knife achieves simple fairness, all players must execute the protocol synchronously. Thus, the protocol cannot be executed on asynchronous networks such as the Internet. We show that the moving-knife protocol can be executed asynchronously by a discrete protocol using a secure auction protocol. The number of cuts is n-1 where n is the number of players, which is the minimum.Comment: In Proceedings IWIGP 2012, arXiv:1202.422

Rapid Oscillations in Cataclysmic Variables. XVI. DW Cancri

We report photometry and spectroscopy of the novalike variable DW Cancri. The spectra show the usual broad H and He emission lines, with an excitation and continuum slope characteristic of a moderately high accretion rate. A radial-velocity search yields strong detections at two periods, 86.1015(3) min and 38.58377(6) min. We interpret these as respectively the orbital period P_orb of the binary, and the spin period P_spin of a magnetic white dwarf. The light curve also shows the spin period, plus an additional strong signal at 69.9133(10) min, which coincides with the difference frequency 1/P_spin-1/P_orb. These periods are stable over the 1 year baseline of measurement. This triply-periodic structure mimics the behavior of several well-credentialed members of the "DQ Herculis" (intermediate polar) class of cataclysmic variables. DQ Her membership is also suggested by the mysteriously strong sideband signal (at nu_spin-nu_orb), attesting to a strong pulsed flux at X-ray/EUV/UV wavelengths. DW Cnc is a new member of this class, and would be an excellent target for extended observation at these wavelengths.Comment: PDF, 28 pages, 6 tables, 9 figures; accepted, in press, to appear June 2004, PASP; more info at http://cba.phys.columbia.edu

Enhanced Monitoring of White Collar Employees: Should Employers Be Required to Disclose?

This Comment presents a five part legal and economic analysis of enhanced monitoring of white collar employees. Section I defines the employment contract. Section II provides an overview of the legal issues raised by enhanced monitoring of white collar employees. Section III discusses the economics of enhanced monitoring. Section IV presents an analysis of the legal and economic effects of an employer\u27s enhanced monitoring of white collar employees. Finally, Section V describes and evaluates proposed federal legislation that would require employers to disclose the use of enhanced monitoring to employees

Enhanced Monitoring of White Collar Employees: Should Employers Be Required to Disclose?

This Comment presents a five part legal and economic analysis of enhanced monitoring of white collar employees. Section I defines the employment contract. Section II provides an overview of the legal issues raised by enhanced monitoring of white collar employees. Section III discusses the economics of enhanced monitoring. Section IV presents an analysis of the legal and economic effects of an employer\u27s enhanced monitoring of white collar employees. Finally, Section V describes and evaluates proposed federal legislation that would require employers to disclose the use of enhanced monitoring to employees