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Charge-density-wave instabilities and quantum transport in the monophosphate tungsten bronzes with m = 5 alternate structure (2000)

Beierlein, U. ; Hess, C. ; Schlenker, C. ; [et al.]

Springer

The European physical journal 17 (2000), S. 215-226

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ISSN: 1434-6036

Keywords: PACS. 71.45.Lr Charge-density-wave systems - 72.15.Gd Galvanomagnetic and other magnetotransport effects

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract: Resistivity, thermoelectric power and magnetotransport measurements have been performed on single crystals of the quasi two-dimensional monophosphate tungsten bronzes (PO2)4(WO3)2m for m =5 with alternate structure, between 0.4 K and 500 K, in magnetic fields of up to 36 T. These compounds show one charge density instability (CDW) at 160 K and a possible second one at 30 K. Large positive magnetoresistance in the CDW state is observed. The anisotropic Shubnikov-de Haas and de Haas-van Alphen oscillations detected at low temperatures are attributed to the existence of small electron and hole pockets left by the CDW gap openings. Angular dependent magnetoresistance oscillations (AMRO) have been found at temperatures below 30 K. The results are discussed in terms of a weakly corrugated cylindrical Fermi surface. They are shown to be consistent with a change of the Fermi surface below 30 K.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s100510070135

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Electronic instabilities in the quasi-two-dimensional conducting monophosphate tungsten bronzes K P W O ( ) (2000)

Drouard, S. ; Groult, D. ; Dumas, J. ; [et al.]

Springer

The European physical journal 16 (2000), S. 593-600

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ISSN: 1434-6036

Keywords: PACS. 71.45.Lr Charge-density-wave systems - 72.15.Gd Galvanomagnetic and other magnetotransport effects

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract: The monophosphate tungsten bronzes KxP4W8O32 are quasi-two-dimensional conductors. The parent compound P4W8O32 shows two charge density wave instabilities (CDW). The layered structure of the doped compounds contains pseudo hexagonal tunnels stabilised by the insertion of potassium for 0.75〈 x 〈2. In order to study the role of the band filling in the CDW instabilities, we have performed resistivity, magnetoresistance, Hall effect, thermopower and specific heat measurements on the doped compounds with 0.8〈 x 〈1.94. Anomalies at a temperature depending on x appear on all the transport properties. From transport data, we have obtained a phase diagram which shows surprisingly a maximum at 170 K for x =1.3. In the whole range of temperature studied (4.2 K-300 K), the transport properties of KxP4W8O32 show a change for . The diagram is discussed in term of non-monotonous behaviour for the density of states versus the energy and in relation to previous X-ray studies. The transitions in KxP4W8O32 do not seem to be conventional Peierls instabilities in contrast with those observed in pure P4W8O32.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s100510070177

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Self-Calibration of BICEP1 Three-Year Data and Constraints on Astrophysical Polarization Rotation (2014)

Holzapfel, W. L. ; Kovac, J. M. ; Mason, P. V. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Cosmic microwave background (CMB) polarimeters aspire to measure the faint B-mode signature predicted to arise from inflationary gravitational waves. They also have the potential to constrain cosmic birefringence, rotation of the polarization of the CMB arising from parity-violating physics, which would produce nonzero expectation values for the CMB's temperature to B-mode correlation (TB) and E-mode to B-mode correlation (EB) spectra. However, instrumental systematic effects can also cause these TB and EB correlations to be nonzero. In particular, an overall miscalibration of the polarization orientation of the detectors produces TB and EB spectra which are degenerate with isotropic cosmological birefringence, while also introducing a small but predictable bias on the BB spectrum. We find that BICEP1 three-year spectra, which use our standard calibration of detector polarization angles from a dielectric sheet, are consistent with a polarization rotation of alpha = 2.77deg +/- 0.86deg (statistical) +/- 1.3deg (systematic). We have revised the estimate of systematic error on the polarization rotation angle from the two-year analysis by comparing multiple calibration methods. We also account for the (negligible) impact of measured beam systematic effects. We investigate the polarization rotation for the BICEP1 100 GHz and 150 GHz bands separately to investigate theoretical models that produce frequency-dependent cosmic birefringence. We find no evidence in the data supporting either of these models or Faraday rotation of the CMB polarization by the Milky Way galaxy's magnetic field. If we assume that there is no cosmic birefringence, we can use the TB and EB spectra to calibrate detector polarization orientations, thus reducing bias of the cosmological B-mode spectrum from leaked E-modes due to possible polarization orientation miscalibration. After applying this "self-calibration" process, we find that the upper limit on the tensor-to-scalar ratio decreases slightly, from r 〈 0.70 to r 〈 0.65 at 95% confidence.

Keywords: Astrophysics

Type: GSFC-E-DAA-TN15187 , Physical Review D; 89; 6; 062006

Format: application/pdf

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Inflation Physics from the Cosmic Microwave Background and Large Scale Structure (2013)

Arnold,K. ; Carlstrom, J.E. ; Dodelson, S ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: Fluctuations in the intensity and polarization of the cosmic microwave background (CMB) and the large-scale distribution of matter in the universe each contain clues about the nature of the earliest moments of time. The next generation of CMB and large-scale structure (LSS) experiments are poised to test the leading paradigm for these earliest moments---the theory of cosmic inflation---and to detect the imprints of the inflationary epoch, thereby dramatically increasing our understanding of fundamental physics and the early universe. A future CMB experiment with sufficient angular resolution and frequency coverage that surveys at least 1 of the sky to a depth of 1 uK-arcmin can deliver a constraint on the tensor-to-scalar ratio that will either result in a 5-sigma measurement of the energy scale of inflation or rule out all large-field inflation models, even in the presence of foregrounds and the gravitational lensing B-mode signal. LSS experiments, particularly spectroscopic surveys such as the Dark Energy Spectroscopic Instrument, will complement the CMB effort by improving current constraints on running of the spectral index by up to a factor of four, improving constraints on curvature by a factor of ten, and providing non-Gaussianity constraints that are competitive with the current CMB bounds.

Keywords: Astrophysics

Type: GSFC-E-DAA-TN11407

Format: application/pdf

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