Publications by authors named "Suvasthika Indrajith"

The radiative cooling of naphthalene dimer cations, (CH) was studied experimentally through action spectroscopy using two different electrostatic ion-beam storage rings, DESIREE in Stockholm and Mini-Ring in Lyon. The spectral characteristics of the charge resonance (CR) band were observed to vary significantly with a storage time of up to 30 seconds in DESIREE. In particular, the position of the CR band shifts to the blue, with specific times (inverse of rates) of 0.

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OH⋅-induced oxidation products of DNA nucleosides and nucleotides have been structurally characterized by collision-induced dissociation tandem mass spectrometry (CID-MS ) and Infrared Multiple Photon Dissociation (IRMPD) spectroscopy. CID-MS results have shown that the addition of one oxygen atom occurs on the nucleobase moiety. The gas-phase geometries of +16 mass increment products of 2'-deoxyadenosine (dA(O)H ), 2'-deoxyadenosine 5'-monophosphate (dAMP(O)H ), 2'-deoxycytidine (dC(O)H ), and 2'-deoxycytidine 5'-monophosphate (dCMP(O)H ) are extensively investigated by IRMPD spectroscopy and quantum-chemical calculations.

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Article Synopsis
  • Recent observations have detected small Polycyclic Aromatic Hydrocarbons (PAHs) in the Taurus Molecular Cloud using radio telescopes, presenting challenges for astrochemical modeling of their abundance.
  • The study finds that the rapid cooling of ionized PAHs through a process called Recurrent Fluorescence (RF) stabilizes these molecules, aiding their survival in space.
  • Researchers employed a novel experimental method to accurately measure the cooling rate of the 1-cyanonaphthalene cation, supporting previous calculations and emphasizing the need for enhanced models to better understand PAHs in astronomical contexts.*
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  • Naphthalene and azulene are isomeric polycyclic aromatic hydrocarbons being studied for their presence in the Taurus Molecular Cloud-1, particularly focusing on how they transform under thermal and photo-induced conditions.
  • Research using a cryogenic electrostatic ion storage ring revealed rapid isomerization and a quasi-equilibrium between naphthalene and azulene radical cations, impacting their dissociation pathways.
  • The findings highlight efficient radiative cooling mechanisms that may imply the greater abundance of small cations like naphthalene in space, with potential applications for studying other PAHs' behaviors.
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  • The study investigates the recurrent fluorescence (RF) cooling rates of tetracene cations at varying internal energies and storage times using two different ion-beam storage rings: the cryogenic DESIREE in Stockholm and the room temperature Mini-Ring in Lyon.
  • Measured RF cooling rates range from 150 to 1000 seconds for internal energies between 7 to 9.4 eV, showing significantly more efficient cooling compared to smaller polycyclic aromatic hydrocarbons (PAHs) like anthracene and naphthalene.
  • The complementary characteristics of both rings enable broader measurements of RF rates, with Mini-Ring focusing on faster-decaying hotter ions and DESIREE targeting slower-decaying colder ions, resulting in
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The valence ionization of uracil and mixed water-uracil clusters has been studied experimentally and by ab initio calculations. In both measurements, the spectrum onset shows a red shift with respect to the uracil molecule, with the mixed cluster characterized by peculiar features unexplained by the sum of independent contributions of the water or uracil aggregation. To interpret and assign all the contributions, we performed a series of multi-level calculations, starting from an exploration of several cluster structures using automated conformer-search algorithms based on a tight-binding approach.

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Article Synopsis
  • * The research focuses on the cationic form of 1-CNN, analyzing its unimolecular dissociation and radiative cooling rates through experiments that mimic interstellar conditions.
  • * Findings show that a process called Recurrent Fluorescence helps stabilize 1-CNN, which suggests that small PAHs might not be destroyed as quickly in space as commonly believed.
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Reactive oxygen species (ROS) such as hydrogen peroxide (HO) and the hydroxyl radical (OH) have specific functions in biological processes, while their uncontrolled production and reactivity are known to be determining factors in pathophysiology. Methionine (Met) residues act as endogenous antioxidants, when they are oxidized into methionine sulfoxide (MetSO), thus depleting ROS and protecting the protein. We employed tandem mass spectrometry combined with IR multiple photon dissociation spectroscopy to study the oxidation induced by OH radicals produced by γ radiolysis on model cyclic dipeptides c(LMetLMet), c(LMetDMet), and c(GlyMet).

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  • Researchers examined how HfF and WF molecular anions decay spontaneously and when exposed to different laser wavelengths in a specialized facility called DESIREE, observing these processes over long time scales thanks to very low temperatures and pressures.
  • The study found that both anions experience decay through electron detachment or fragmentation, with WF anions showing a significant increase in neutralization at a specific energy threshold of about 3.5 eV, while HfF did not exhibit any enhancement in neutrons produced, even at high energy levels.
  • This finding could aid in improving the detection of the rare isotope Hf in accelerator mass spectrometry by minimizing interference from stable isobar W, which is important for astrophysical studies on nucleosynthesis
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The properties of mixed water-uracil nanoaggregates have been probed by core electron-photoemission measurements to investigate supramolecular assembly in the gas phase driven by weak interactions. The interpretation of the measurements has been assisted by multilevel atomistic simulations, based on semi-empirical tight-binding and DFT-based methods. Our protocol established a positive-feedback loop between experimental and computational techniques, which has enabled a sound and detailed atomistic description of such complex heterogeneous molecular aggregates.

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We propose to combine quantum chemical calculations, statistical mechanical methods, and photoionization and particle collision experiments to unravel the redistribution of internal energy of the furan cation and its dissociation pathways. This approach successfully reproduces the relative intensity of the different fragments as a function of the internal energy of the system in photoelectron-photoion coincidence experiments and the different mass spectra obtained when ions ranging from Ar+ to Xe25+ or electrons are used in collision experiments. It provides deep insights into the redistribution of the internal energy in the ionized molecule and its influence on the dissociation pathways and resulting charged fragments.

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The C, N and O 1s XPS spectra of uracil clusters in the gas phase have been measured. A new bottom-up approach, which relies on computational simulations starting from the crystallographic structure of uracil, has been adopted to interpret the measured spectra. This approach sheds light on the different molecular interactions (H-bond, π-stacking, dispersion interactions) at work in the cluster and provides a good understanding of the observed XPS chemical shifts with respect to the isolated molecule in terms of intramolecular and intermolecular screening occurring after the core-hole ionization.

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The laboratory study of prebiotic molecules interacting with solar wind ions is important to understand their role in the emergence of life in the complex context of the astrochemistry of circumstellar environments. In this work, we present the first study of the interaction of hydantoin (CNOH, 100 a.m.

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This work presents a photodissociation study of the diamondoid adamantane using extreme ultraviolet femtosecond pulses. The fragmentation dynamics of the dication is unraveled by the use of advanced ion and electron spectroscopy giving access to the dissociation channels as well as their energetics. To get insight into the fragmentation dynamics, we use a theoretical approach combining potential energy surface determination, statistical fragmentation methods and molecular dynamics simulations.

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A novel approach has been developed to synthesize complex organic molecules (COMs) relevant to prebiotic chemistry, using infrared (IR) radiation to trigger the reaction. An original laboratory reactor working at low gas density and using IR irradiation was developed. In this way, glycine, the simplest brick of life, has been synthesized by assisting ion-molecule reaction with IR laser light.

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DNA constituents are effectively decomposed via dissociative electron attachment (DEA). However, the DEA contribution to radiation damage in living tissues is a subject of ongoing discussion. We address an essential question, how aqueous environment influences the DEA to DNA.

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