1,259 research outputs found
Warm HCN, C2H2, and CO in the disk of GV Tau
We present the first high-resolution, ground-based observations of HCN and
C2H2 toward the T Tauri binary star system GV Tau. We detected strong
absorption due to HCN nu_3 and weak C2H2 (nu_3 and nu_2 + (nu_4 + nu_5)^0_+)
absorption toward the primary (GV Tau S) but not the infrared companion. We
also report CO column densities and rotational temperatures, and present
abundances relative to CO of HCN/CO ~0.6% and C2H2/CO ~1.2% and an upper limit
for CH4/CO < 0.37% toward GV Tau S. Neither HCN nor C2H2 were detected toward
the infrared companion and results suggest that abundances may differ between
the two sources.Comment: 23 pages, 6 figures, accepted by Ap
Erratum: Warm HCN, C2H2, and CO in the Disk of GV Tau\u27\u27
This is an Erratum for the article 2007 ApJ 660 157
Near-Infrared Spectroscopic Study of V1647 Ori
We present new high-resolution infrared echelle spectra of V1647 Ori, the young star that illuminates McNeil\u27s nebula. From the start, V1647 Ori has been an enigmatic source that has defied classification, in some ways resembling eruptive stars of the FUor class and in other respects the EXor variables. V1647 Ori underwent an outburst in 2003 before fading back to its pre-outburst brightness in 2006. In 2008, it underwent a new outburst. In this paper we present high-resolution K-band and M-band spectra from the W. M. Keck Observatory that were acquired during the 2008 outburst. We compare the spectra to spectra acquired during the previous outburst and quiescent phases. We find that the luminosity and full width at half maximum power of Br-gamma increased as the star has brightened and decreased when the star faded indicating that these phases are driven by variations in the accretion rate. We also show that the temperature of the CO emission has varied with the stellar accretion rate confirming suggestions from modeling of the heating mechanisms of the inner disk (e.g. Glassgold et al. 2004). Finally we find that the lowest energy blue-shifted CO absorption lines originally reported in 2007 are no longer detected. The absence of these lines confirms the short-lived nature of the outflow launched at the start of the quiescent phase in 2006
Multiple magnetic ordering phenomena in multiferroic o-HoMnO3
Orthorhombic HoMnO3 is a multiferroic in which Mn antiferromagnetic order
induces ferroelectricity. A second transition occurs within the multiferroic
phase, in which a strong enhancement of the ferroelectric polarization occurs
concomitantly to antiferromagnetic ordering of Ho 4f magnetic moments. Using
the element selectivity of resonant X-ray diffraction, we study the magnetic
order of the Mn 3d and Ho 4f moments. We explicitly show that the Mn magnetic
order is affected by the Ho 4f magnetic ordering transition. Based on the
azimuthal dependence of the (0 q 0) and (0 1-q 0) magnetic reflections, we
suggest that the Ho 4f order is similar to that previously observed for Tb 4f
in TbMnO3, which resembles an ac-cycloid. This is unlike the Mn order, which
has already been shown to be different for the two materials. Using
non-resonant diffraction, we show that the magnetically-induced ferroelectric
lattice distortion is unaffected by the Ho ordering, suggesting a mechanism
through which the Ho order affects polarization without affecting the lattice
in the same manner as the Mn order
CO and H+3 Toward MWC 1080, MWC 349, and LkHα 101
We present high-resolution, near-infrared NIRSPEC observations of the fundamental rovibrational CO and H+ 3 R(1,0), R(1,1) u , and Q(1,0) transitions toward three early-type young stars: MWC 1080, MWC 349, and LkHα 101. These observations were performed for the purpose of constraining the physical characteristics of the interstellar material along each line of sight. Toward MWC 1080, we detected strong CO absorption and determined a column density upper limit of 1.4 Ă 1014 cmâ2 for H+ 3. We infer that there is very little diffuse material along the line of sight toward MWC 1080 and that the CO absorption is consistent with an origin in the dispersing natal cloud. We detected both cold CO and H+ 3 toward MWC 349, consistent with a diffuse cloud origin. Similarly, both CO and H+ 3 were detected toward LkHα 101. Using a recently revised value for the cosmic ray ionization rate, we conclude that the CO absorption is consistent with a dense cloud origin while the H+ 3 could originate in either the dense or diffuse interstellar medium. We also find no evidence for CO fractionation toward LkHα 101 as reported by Goto et al
Exchange-Striction Driven Ultrafast Nonthermal Lattice Dynamics in NiO
We use femtosecond electron diffraction to study ultrafast lattice dynamics in the highly correlated antiferromagnetic (AFM) semiconductor NiO. Using the scattering vector (Q) dependence of Bragg diffraction, we introduce Q-resolved effective temperatures describing the transient lattice. We identify a nonthermal lattice state with preferential displacement of O compared to Ni ions, which occurs within âŒ0.3ââps and persists for 25 ps. We associate this with transient changes to the AFM exchange striction-induced lattice distortion, supported by the observation of a transient Q asymmetry of Friedel pairs. Our observation highlights the role of spin-lattice coupling in routes towards ultrafast control of spin order
Post-Outburst Infrared Spectra of V1647 Ori, the Illuminating Star of McNeil\u27s Nebula
V1647 Ori is a low mass star in the L1630 star-forming region that underwent an outburst in late 2003/early 2004. We present post-outburst infrared spectra obtained with NIRSPEC (Keck II) and SpeX (IRTF) and compare these to spectra taken during the outburst. The results show that the temperature of the hot CO formed in the inner part of the disk has declined by ~800 K, while the water and CO ice and low-J CO gas features remained unchanged, consistent with previous assertions that the latter, low-temperature features arise in the foreground cloud. The P-Cygni profiles of the Paschen series that were present in the outburst spectra taken in March 2004 disappeared by late 2004. The equivalent width of the helium absorption line at 1.0830 ”m decreased from 8.9 Ă
to 3.9 Ă
between March and November 2004, evidence that the hot, fast wind has decreased substantially. We discuss the implications for categorizing V1647 Ori among the known classes of outbursting young stars
A quantitative comparison of time-of-flight momentum microscopes and hemispherical analyzers for time- and angle-resolved photoemission spectroscopy experiments
Time-of-flight-based momentum microscopy has a growing presence in
photoemission studies, as it enables parallel energy- and momentum-resolved
acquisition of the full photoelectron distribution. Here, we report table-top
extreme ultraviolet (XUV) time- and angle-resolved photoemission spectroscopy
(trARPES) featuring both a hemispherical analyzer and a momentum microscope
within the same setup. We present a systematic comparison of the two detection
schemes and quantify experimentally relevant parameters, including pump- and
probe-induced space-charge effects, detection efficiency, photoelectron count
rates, and depth of focus. We highlight the advantages and limitations of both
instruments based on exemplary trARPES measurements of bulk WSe2. Our analysis
demonstrates the complementary nature of the two spectrometers for
time-resolved ARPES experiments. Their combination in a single experimental
apparatus allows us to address a broad range of scientific questions with
trARPES.Comment: 19 pages, 9 figures. The following article has been submitted to
Review of Scientific Instruments / AIP Publishing. After it is published, it
will be found at https://aip.scitation.org/journal/rs
Ultrafast Laser-Induced Melting of Long-Range Magnetic Order in Multiferroic TbMnO3
We performed ultrafast time-resolved near-infrared pump, resonant soft X-ray
diffraction probe measurements to investigate the coupling between the
photoexcited electronic system and the spin cycloid magnetic order in
multiferroic TbMnO3 at low temperatures. We observe melting of the long range
antiferromagnetic order at low excitation fluences with a decay time constant
of 22.3 +- 1.1 ps, which is much slower than the ~1 ps melting times previously
observed in other systems. To explain the data we propose a simple model of the
melting process where the pump laser pulse directly excites the electronic
system, which then leads to an increase in the effective temperature of the
spin system via a slower relaxation mechanism. Despite this apparent increase
in the effective spin temperature, we do not observe changes in the wavevector
q of the antiferromagnetic spin order that would typically correlate with an
increase in temperature under equilibrium conditions. We suggest that this
behavior results from the extremely low magnon group velocity that hinders a
change in the spin-spiral wavevector on these time scales.Comment: 9 pages, 4 figure
- âŠ