41 research outputs found
ExoMol molecular line lists - XXVII: spectra of C2H4
A new line list for ethylene, CH is presented. The line
list is based on high level ab initio potential energy and dipole moment
surfaces. The potential energy surface is refined by fitting to experimental
energies. The line list covers the range up to 7000 cm (1.43 m)
with all ro-vibrational transitions (50 billion) with the lower state below
5000 cm included and thus should be applicable for temperatures up to
700 K. A technique for computing molecular opacities from vibrational band
intensities is proposed and used to provide temperature dependent cross
sections of ethylene for shorter wavelength and higher temperatures. When
combined with realistic band profiles (such as the proposed three-band model),
the vibrational intensity technique offers a cheap but reasonably accurate
alternative to the full ro-vibrational calculations at high temperatures and
should be reliable for representing molecular opacities. The CH line
list, which is called MaYTY, is made available in electronic form from the CDS
Gaussian basis functions for highly oscillatory scattering wavefunctions
We are grateful for helpful discussions with Edward Armour and Martin Plummer. This work was supported by the UK Engineering and Physical Sciences Research Council (EPSRC) via a Doctoral Training Account studentship for BPM, grant number EP/K502960/1. We also thank the EPSRC-funded CCPQ consortium and the Royal Society of Chemistry for further financial support. We also thank the referees for their comments on the manuscript.Peer reviewedPublisher PD
Photoelectron spectroscopy and dissociative photoionization of fulminic acid, HCNO
We report a joint experimental and computational study of the photoelectron spectroscopy and the dissociative photoionization of fulminic acid, HCNO. The molecule is of interest to astrochemistry and astrobiology as a potential precursor of prebiotic molecules. Synchrotron radiation was used as the photon source. Dispersive photoelectron spectra were recorded from 10~eV to 22~eV, covering four band systems in the HCNO cation and an ionization energy of 10.83~eV was determined. Transitions into the Renner-Teller distorted state of the cation were simulated using wavepacket dynamics based on a vibronic coupling Hamiltonian. Very good agreement between experiment and theory is obtained. While the first excited state of the cation shows only a broad and unstructured spectrum, the next two higher states exhibit a well-resolved vibrational progression. Transitions into the excited electronic states of \cation{HCNO}{+} were not simulated, due to the large number of electronic states that contribute to these transitions. Nevertheless, a qualitative assignment is given, based on the character of the orbitals involved in the transitions. The dissociative photoionization was investigated by photoelectron-photoion coincidence spectroscopy. The breakdown diagram shows evidence for isomerization from \cation{HCNO}{+} to \cation{HNCO}{+} on the cationic potential energy surface. Zero Kelvin appearance energies for the daughter ions \cation{HCO}{+} and \cation{NCO}{+} have been derived
Relationship between microbiology of throat swab and clinical course among primary care patients with acute cough: a prospective cohort study.
BACKGROUND: Acute lower respiratory tract infections (ALRTIs) account for most antibiotics prescribed in primary care despite lack of efficacy, partly due to clinician uncertainty about aetiology and patient concerns about illness course. Nucleic acid amplification tests could assist antibiotic targeting. METHODS: In this prospective cohort study, 645 patients presenting to primary care with acute cough and suspected ALRTI, provided throat swabs at baseline. These were tested for respiratory pathogens by real-time polymerase chain reaction and classified as having a respiratory virus, bacteria, both or neither. Three hundred fifty-four participants scored the symptoms severity daily for 1 week in a diary (0 = absent to 4 = severe problem). RESULTS: Organisms were identified in 346/645 (53.6%) participants. There were differences in the prevalence of seven symptoms between the organism groups at baseline. Those with a virus alone, and those with both virus and bacteria, had higher average severity scores of all symptoms combined during the week of follow-up than those in whom no organisms were detected [adjusted mean differences 0.204 (95% confidence interval 0.010 to 0.398) and 0.348 (0.098 to 0.598), respectively]. There were no differences in the duration of symptoms rated as moderate or severe between organism groups. CONCLUSIONS: Differences in presenting symptoms and symptoms severity can be identified between patients with viruses and bacteria identified on throat swabs. The magnitude of these differences is unlikely to influence management. Most patients had mild symptoms at 7 days regardless of aetiology, which could inform patients about likely symptom duration
Statistical reanalysis of vascular event outcomes in primary and secondary vascular prevention trials.
BACKGROUND: Vascular prevention trials typically use dichotomous event outcomes although this may be inefficient statistically and gives no indication of event severity. We assessed whether ordinal outcomes would be more efficient and how to best analyse them. METHODS: Chief investigators of vascular prevention randomised controlled trials that showed evidence of either benefit or harm, or were included in a systematic review that overall showed benefit or harm, shared individual participant data from their trials. Ordered categorical versions of vascular event outcomes (such as stroke and myocardial infarction) were analysed using 15 statistical techniques and their results then ranked, with the result with the smallest p-value given the smallest rank. Friedman and Duncan's multiple range tests were performed to assess differences between tests by comparing the average ranks for each statistical test. RESULTS: Data from 35 trials (254,223 participants) were shared with the collaboration. 13 trials had more than two treatment arms, resulting in 59 comparisons. Analysis approaches (Mann Whitney U, ordinal logistic regression, multiple regression, bootstrapping) that used ordinal outcome data had a smaller average rank and therefore appeared to be more efficient statistically than those that analysed the original binary outcomes. CONCLUSIONS: Ordinal vascular outcome measures appear to be more efficient statistically than binary outcomes and provide information on the severity of event. We suggest a potential role for using ordinal outcomes in vascular prevention trials
ExoMol molecular line lists - XXVII: spectra of C2H4
A new line list for ethylene, CH is presented. The line list is based on high level ab initiopotential energy and dipole moment surfaces. The potential energy surface is refined by fitting to experimental energies. The line list covers the range up to 7000 cm (1.43 μm) with all ro-vibrational transitions (50 billion) with the lower state below 5000 cm included and thus should be applicable for temperatures up to 700 K. A technique for computing molecular opacities from vibrational band intensities is proposed and used to provide temperature dependent cross sections of ethylene for shorter wavelength and higher temperatures. When combined with realistic band profiles (such as the proposed three-band model), the vibrational intensity technique offers a cheap but reasonably accurate alternative to the full ro-vibrational calculations at high temperatures and should be reliable for representing molecular opacities. The CH line list, which is called MaYTY, is rmade available in electronic form from the CDS (http://cdsarc.u-strasbg.fr) and ExoMol (www.exomol.com) databases
The infrared spectrum of PF and analysis of rotational energy clustering effect
In this paper we carry out the first variational calculation of the rotational-vibrational levels of PF and computeintensities for dipole transitions between them. This is accomplished using new state of the art potential energy and dipolemoment surfaces (PES and DMS respectively). This allows the infrared spectrum of PF to be simulated, providing a completeoverview of the spectrum. We also investigate theoretically the behaviour of PF at high rotational excitations. The formation of quasi-degenerate 6-fold rotational energy clusters at high rotational excitation are investigated, up to =270, which are found to occur around =200. The wavefunctions are analysed in terms of semi-classical rotational energy surfaces