Testing statistical Isotropy in Cosmic Microwave Background Polarization maps

We apply our symmetry based Power tensor technique to test conformity of PLANCK Polarization maps with statistical isotropy. On a wide range of angular scales (l=40-150), our preliminary analysis detects many statistically anisotropic multipoles in foreground cleaned full sky PLANCK polarization maps viz., COMMANDER and NILC. We also study the effect of residual foregrounds that may still be present in the galactic plane using both common UPB77 polarization mask, as well as the individual component separation method specific polarization masks. However some of the statistically anisotropic modes still persist, albeit significantly in NILC map. We further probed the data for any coherent alignments across multipoles in several bins from the chosen multipole range.Comment: 11 pages, 6 figures, Accepted for publication in MNRA

Effect of foregrounds on the cosmic microwave background radiation multipole alignment

This article has been accepted for publication in Monthly Notices of the Royal Astronomical Society © 2011 The Authors. Monthly Notices of the Royal Astronomical Society © 2009 RAS. Published by Oxford University Press on behalf of the Royal Astronomical Society. All rights reserved.We analyse the effect of foregrounds on the observed alignment of the cosmic microwave background radiation (CMBR) quadrupole and octopole. The alignment between these multipoles is studied by using a symmetry-based approach which assigns a principal eigenvector (PEV) or an axis with each multipole. We determine the alignment between these multipoles and its significance using the internal linear combination (ILC) 5- and 7-yr maps. We also use the maps obtained by applying the internal power spectrum estimation (IPSE) procedure on the corresponding Wilkinson Microwave Anisotropy Probe data sets to assess its significance. The effect of foreground cleaning is studied in detail within the framework of the IPSE method both analytically and numerically. By using simulated CMBR data, including foregrounds and detector noise, we study how the PEVs of the simulated pure CMB maps differ from those of the corresponding clean maps. We find that, in general, the shift in the PEVs is relatively small and in random directions. Because of the random nature of the shift we conclude that the residual foregrounds can only lead to misalignment rather than cause alignment of multipoles. We also directly estimate the significance of the observed alignment by using simulated clean maps. We find that the results in this case are identical to those obtained by simple analytic estimates or by using simulated pure CMB maps

Effect of Foregrounds on the CMBR Multipole Alignment

We analyze the effect of foregrounds on the observed alignment of CMBR quadrupole and octopole. The alignment between these multipoles is studied by using a symmetry based approach which assigns a principal eigenvector (PEV) or an axis with each multipole. We determine the significance of alignment between these multipoles by using the Internal Linear Combination (ILC) 5 and 7 year map s and also the maps obtained by using the Internal Power Spectrum Estimation (IPSE) procedure. The effect of foreground cleaning is studied in detail within the framework of the IPSE method both analytically and numerically. By using simulated CMBR data, we study how the PEVs of the pure simulated CMB map differ from those of the final cleaned map. We find that, in general, the shift in the PEVs is relatively small and in random directions. Due to the random nature of the shift we conclude that it can only lead to misalignment rather than alignment of multipoles. We also directly estimate the significance of alignment by using simulated cleaned maps. We find that the results in this case are identical to those obtained by simple analytic estimate or by using simulated pure CMB maps.Comment: 27 pages, 8 figure

Elucidating the role of electron transfer in the photoluminescence of MoS2\mathrm{MoS_{2}} quantum dots synthesized by fs-pulse ablation

Herein, $\mathrm{MoS_{2}}$ quantum dot (QDs) with controlled optical, structural, and electronic properties are synthesized using the femtosecond pulsed laser ablation in liquid (fs-PLAL) technique by varying pulse-width, ablation power, and ablation time to harness the potential for next-generation optoelectronics and quantum technology. Furthermore, this work elucidates key aspects of the mechanisms underlying the near-UV and blue emission, the accompanying large Stokes-shift, and the consequent change in sample color with laser exposure parameters pertaining to $\mathrm{MoS_{2}}$ QDs. Through spectroscopic analysis, including UV-visible absorption, photoluminescence, and Raman spectroscopy, we successfully unravelled the mechanisms for the change in optoelectronic properties of $\mathrm{MoS_{2}}$ QDs with laser parameters. We realize that the occurrence of a secondary phase, specifically $\mathrm{MoO_{3-x}}$, is responsible for the significant Stokes-shift and blue emission observed in this QDs system. The primary factor influencing these activities is the electron transfer observed between these two phases, as validated by excitation dependent photoluminescence, XPS and Raman spectroscopies

Ekspresija gena za imunološki odgovor nakon izazivačke infekcije u indijskih šarana rohu (Labeo rohita) cijepljenih modificiranom formulacijom proteina R vanjske membrane bakterije Aeromonas hydrophila

Although vaccination and post-vaccination studies have gained considerable importance in the field of aquaculture diseases, little is understood about the mechanism of immune-protection in vaccinated fish following infection. In the present study, an attempt was made to discover the mechanism of protection rendered by a modified adjuvant-based recombinant outer membrane protein R (rOmpR) vaccine, in rohu, Labeo rohita (an important Indian major carp species) following a challenge with Aeromonas hydrophila. For this, expression analysis of an array of immune molecules (IgM, complement factor 3, interleukin 1β, interleukin 6, tumor necrosis factor α, interleukin 15, MHC I and MHC II) was carried out in the anterior kidney tissues of vaccinated fish, at 0, 12, 24, 48, 72 and 120 h post-challenge. Higher transcript levels of IgM, MHC I and MHC II were evident in the mineral oil-based OmpR vaccinated and modified adjuvant-based OmpR-vaccinated groups, at different time points post-challenge, including the non-challenged fish. Early onset of pro-inflammatory cytokines and expression of most of the immune genes was more pronounced in vaccinated fish at different time points post-challenge, thus indicating a better immune response in these fish. This study indicated the activation of both humoral and cell mediated immunity in vaccinated rohu following a challenge with A. hydrophila.Iako su cijepljenje i istraživanja nakon cijepljenja znatno dobila na važnosti u borbi protiv bolesti u akvakulturi, malo se zna o mehanizmu imunološke zaštite u cijepljenih riba nakon izazivačke infekcije. U ovom se istraživanju pokušalo rasvijetliti mehanizam zaštite nakon cijepljenja modificiranim cjepivom pripravljenim od rekombinantnog proteina R (rOmpR) vezanog na adjuvans u vrste Labeo rohita (za Indiju važne vrste šarana) i izazivačke infekcije vrstom Aeromonas hydrophila. U tu svrhu analizirana je ekspresija niza imunosnih molekula (IgM, faktor 3 komplementa, interleukin 1β, interleukin 6, faktor tumorske nekroze α, interleukin 15, MHC I and MHC II) u bubrežnim tkivima cijepljenih riba 0, 12, 24, 48, 72 i 120 h nakon izazivačke infekcije. Više razine transkripata IgM, MHC I i MHC II bile su očite u skupina cijepljenih OmpR-om s mineralnim uljem kao adjuvansom i modificiranim OmpR-om s mineralnim uljem u različitim vremenskim razmacima nakon izazivačke infekcije kao i onih koje nisu bile podvrgnute izazivačkoj infekciji. Rana pojava proupalnih citokina i ekspresije većine imunosnih gena bila je više izražena u cijepljenih riba u različitim vremenskim točkama nakon izazivačke infekcije što upućuje na bolji imunosni odgovor u tih riba. Ovo istraživanje naznačuje aktivaciju i humoralne i stanične imunosti u cijepljenih rohu riba nakon izazivačke infekcije bakterijom A. hydrophila

Toxicity of bisphenol a on humans: a review

ABSTRACT Bisphenol A (BPA) is a plastic ingredient produced in large quantities for use primarily in the production of polycarbonate plastics and epoxy resins. The present review focused on different mechanisms of BPA on human health in enzymatic, androgenic, neurological, liver and reproductive systems. The review explained the influence of BPA on different stages of human life likely in foetal stage, children and adults stages. The review also concentrated on how to handle BPA, treatment, preventive measures against BPA exposure