Your search keyword '"Fluerasu A"' showing total 442 results

1. Suppressed self-diffusion of nanoscale constituents of a complex liquid

Author

Tanner, Christian P. N., Wall, Vivian R. K., Gababa, Mumtaz, Portner, Joshua, Jeong, Ahhyun, Hurley, Matthew J., Leonard, Nicholas, Raybin, Jonathan G., Utterback, James K., Kim, Ahyoung, Fluerasu, Andrei, Sun, Yanwen, Moeller, Johannes, Zozulya, Alexey, Jo, Wonhyuk, Madsen, Anders, Talapin, Dmitri V., Teitelbaum, Samuel W., and Ginsberg, Naomi S.

Subjects

Condensed Matter - Soft Condensed Matter, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Condensed Matter - Statistical Mechanics, Physics - Chemical Physics

Abstract

The ability to understand and ultimately control the transformations and properties of various nanoscale systems, from proteins to synthetic nanomaterial assemblies, hinges on the ability to directly elucidate their dynamics on their characteristic length and time scales. Here, we use MHz X-ray photon correlation spectroscopy (XPCS) to directly elucidate the characteristic microsecond-dynamics of density fluctuations of semiconductor nanocrystals (NCs), not only in a colloidal dispersion but also in a liquid phase consisting of densely packed, yet mobile, NCs with no long-range order. By carefully disentangling X-ray induced effects, we find the wavevector-dependent fluctuation rates in the liquid phase are suppressed relative to those in the colloidal phase and to those in experiments and hydrodynamic theories of densely packed repulsive particles. We show that the suppressed rates are due to a substantial decrease in the self-diffusion of NCs in the liquid phase, which we attribute to explicit attractive interactions. Via comparison with simulations, we find that the extracted strength of the attractions explains the stability of the liquid phase, in contrast to the gelation observed via XPCS in many other charged colloidal systems. This work opens the door to elucidating fast, condensed phase dynamics in a variety of complex fluids and other nanoscale soft matter systems, such as densely packed proteins and non-equilibrium self-assembly processes., Comment: 15 pages, 4 figures

Published

2024

2. In situ coherent X-ray scattering reveals polycrystalline structure and discrete annealing events in strongly-coupled nanocrystal superlattices

Author

Hurley, Matthew J., Tanner, Christian P. N., Portner, Joshua, Utterback, James K., Coropceanu, Igor, Williams, Garth J., Das, Avishek, Fluerasu, Andrei, Sun, Yanwen, Song, Sanghoon, Hamerlynck, Leo M., Miller, Alexander H., Bhattacharyya, Priyadarshini, Talapin, Dmitri V., Ginsberg, Naomi S., and Teitelbaum, Samuel W.

Subjects

Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Soft Condensed Matter

Abstract

Solution-phase bottom up self-assembly of nanocrystals into superstructures such as ordered superlattices is an attractive strategy to generate functional materials of increasing complexity, including very recent advances that incorporate strong interparticle electronic coupling. While the self-assembly kinetics in these systems have been elucidated and related to the product characteristics, the weak interparticle bonding interactions suggest the superstructures formed could continue to order within the solution long after the primary nucleation and growth have occurred, even though the mechanism of annealing remains to be elucidated. Here, we use a combination of Bragg coherent diffractive imaging and X-ray photon correlation spectroscopy to create real-space maps of supercrystalline order along with a real-time view of the strain fluctuations in aging strongly coupled nanocrystal superlattices while they remain suspended and immobilized in solution. By combining the results, we deduce that the self-assembled superstructures are polycrystalline, initially comprising multiple nucleation sites, and that shear avalanches at grain boundaries continue to increase crystallinity long after growth has substantially slowed. This multimodal approach should be generalizable to characterize a breadth of materials in situ in their native chemical environments, thus extending the reach of high-resolution coherent X-ray characterization to the benefit of a much wider range of physical systems., Comment: 26 pages, 20 figures

Published

2024

3. In situ coherent x-ray scattering reveals polycrystalline structure and discrete annealing events in strongly coupled nanocrystal superlattices

Author

Hurley, Matthew J, Tanner, Christian PN, Portner, Joshua, Utterback, James K, Coropceanu, Igor, Das, Avishek, Slivka, Joseph D, Fluerasu, Andrei, Sun, Yanwen, Song, Sanghoon, Hamerlynck, Leo M, Miller, Alexander H, Bhattacharyya, Priyadarshini, Talapin, Dmitri V, Williams, Garth J, Ginsberg, Naomi S, and Teitelbaum, Samuel W

Subjects

Physical Sciences, Physical sciences

Abstract

Solution-phase bottom up self-assembly of nanocrystals into superstructures such as ordered superlattices is an attractive strategy to generate functional materials of increasing complexity, including very recent advances that incorporate strong interparticle electronic coupling. While the self-assembly kinetics in these systems have been elucidated and related to the product characteristics, the weak interparticle bonding interactions suggest the superstructures formed could continue to order within the solution long after the primary nucleation and growth have occurred, even though the mechanism of annealing remains to be elucidated. Here, we use a combination of Bragg coherent diffractive imaging and x-ray photon correlation spectroscopy to create real-space maps of supercrystalline order along with a real-time view of the strain fluctuations in aging strongly coupled nanocrystal superlattices while they remain suspended and immobilized in solution. By combining the results, we deduce that the self-assembled superstructures are polycrystalline, initially comprising multiple nucleation sites, and that shear avalanches at grain boundaries continue to increase crystallinity long after growth has substantially slowed. This multimodal approach should be generalizable to characterize a breadth of materials in situ in their native chemical environments, thus extending the reach of high-resolution coherent x-ray characterization to the benefit of a much wider range of physical systems.

Published

2024

4. Imaging of X-ray Pairs in a Spontaneous Parametric Down-Conversion Process

Author

Goodrich, Justin C., Mahon, Ryan, Hanrahan, Joseph, Dziubelski, Monika, Abrahao, Raphael A., Karmakar, Sanjit, Gofron, Kazimierz J., Caswell, Thomas, Allan, Daniel, Berman, Lonny, Fluerasu, Andrei, Nomerotski, Andrei, DaVià, Cinzia, and McSweeney, Sean

Subjects

Physics - Optics, Physics - Applied Physics, Quantum Physics

Abstract

Spontaneous parametric down-conversion is a vital method for generating correlated photon pairs in the visible and near-infrared spectral regions; however, its extension to X-ray frequencies has faced substantial barriers. Here, we present an advancement in correlated X-ray pair generation and detection by employing a two-dimensional pixelated detector to obtain the first direct image of the pair distribution. Our study explores and directly visualizes the down-conversion process, revealing the characteristic ring structure of coincident photon pairs and demonstrating robust spatial correlations. A significant finding is the observation of energy anti-correlation, achieved at an unprecedented rate of approximately 4,100 pairs/hour, far exceeding previous reports in the literature. We believe these results represent a significant leap in X-ray quantum imaging, unlocking the potential for enhanced imaging of biological materials with reduced doses and broadening the applicability of X-ray quantum optical technologies., Comment: 23 pages, 6 main figures, 4 supplemental figures

Published

2023

5. Aging behavior of the localization length in a colloidal glass

Author

Angelini, R., Madsen, A., Fluerasu, A., Ruocco, G., and Ruzicka, B.

Subjects

Condensed Matter - Soft Condensed Matter, Condensed Matter - Disordered Systems and Neural Networks

Abstract

The localization length r_{loc} associated with a fast secondary relaxation in glassy Laponite is determined by X-ray photon correlation spectroscopy (XPCS) through a Debye-Waller fit of the non-ergodicity parameter. Quantitative differences are observed between the time dependence (aging) of r_{loc} in spontaneously aged and rejuvenated samples. This behavior is also reflected in the calculated shear modulus which matches well with data obtained by rheological measurements., Comment: 6 pages, 5 figures

Published

2023

6. Dichotomic Aging Behaviour in a Colloidal Glass

Author

Angelini, Roberta, Zulian, Laura, Fluerasu, Andrei, Madsen, Anders, Ruocco, Giancarlo, and Ruzicka, Barbara

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

An unexpected dichotomic long time aging behaviour is observed in a glassy colloidal clay suspension investigated by X-Ray Photon Correlation Spectroscopy and Dynamic Light Scattering. In the long time aging regime the intensity autocorrelations are non-exponential, following the Kohlrausch-Williams-Watts functional form with exponent bQ. We show that for spontaneously aged samples a stretched behaviour (\beta_Q < 1) is always found. Surprisingly a compressed exponent (\beta_Q > 1) appears only when the system is rejuvenated by application of a shear field. In both cases the relaxation times scale as Q^{-1}. These observations shed light on the origin of compressed exponential behaviour and helps in classifying previous results in the literature on anomalous dynamics., Comment: 5 pages, 5 figures

Published

2023

7. Coherent X-ray Spectroscopy Elucidates Nanoscale Dynamics of Plasma-Enhanced Thin-Film Growth

Author

Myint, Peco, Woodward, Jeffrey M., Wang, Chenyu, Zhang, Xiaozhi, Wiegart, Lutz, Fluerasu, Andrei, Headrick, Randall L., Eddy, Jr., Charles R., and Ludwig, Karl F.

Subjects

Condensed Matter - Materials Science

Abstract

Sophisticated thin film growth techniques increasingly rely on the addition of a plasma component to open or widen a processing window, particularly at low temperatures. However, the addition of the plasma into the growth environment also complicates the surface dynamical evolution. Taking advantage of continued increases in accelerator-based X-ray source brilliance, this real-time study uses X-ray Photon Correlation Spectroscopy (XPCS) to elucidate the nanoscale surface dynamics during Plasma-Enhanced Atomic Layer Deposition (PE-ALD) of an epitaxial indium nitride film. XPCS examines the evolution of the coherent X-ray scattering speckle pattern, which is a fingerprint of the unique sample microstructure at each moment in time. In PE-ALD, ultrathin films are synthesized from repeated cycles of alternating self-limited surface reactions induced by temporally-separated pulses of material precursor and plasma reactant, allowing the influence of each on the evolving morphology to be examined. During the heteroepitaxial 3D growth examined here, sudden changes in surface structure during initial film growth, consistent with numerous overlapping stress-relief events, are observed. When the film becomes continuous, the nanoscale surface morphology abruptly becomes long-lived with correlation time spanning the period of the experiment. Throughout the growth experiment, there is a consistent repeating pattern of correlations associated with the cyclic growth process, which is modeled as transitions between different surface states. The plasma exposure does not simply freeze in a structure that is then built upon in subsequent cycles, but rather there is considerable surface evolution during all phases of the growth cycle., Comment: 25 pages, 8 figures

Published

2023

8. Local step-flow dynamics in thin film growth with desorption

Author

Zhang, Xiaozhi, Ulbrandt, Jeffrey G., Myint, Peco, Fluerasu, Andrei, Wiegart, Lutz, Zhang, Yugang, Nelson, Christie, Ludwig, Karl F., and Headrick, Randall L.

Subjects

Condensed Matter - Materials Science

Abstract

Desorption of deposited species plays a role in determining the evolution of surface morphology during crystal growth when the desorption time constant is short compared to the time to diffuse to a defect site, step edge or kink. However, experiments to directly test the predictions of these effects are lacking. Novel techniques such as \emph{in-situ} coherent X-ray scattering can provide significant new information. Herein we present X-ray Photon Correlation Spectroscopy (XPCS) measurements during diindenoperylene (DIP) vapor deposition on thermally oxidized silicon surfaces. DIP forms a nearly complete two-dimensional first layer over the range of temperatures studied (40 - 120 $^{\circ}$C), followed by mounded growth during subsequent deposition. Local step flow within mounds was observed, and we find that there was a terrace-length-dependent behavior of the step edge dynamics. This led to unstable growth with rapid roughening ($\beta>0.5$) and deviation from a symmetric error-function-like height profile. At high temperatures, the grooves between the mounds tend to close up leading to nearly flat polycrystalline films. Numerical analysis based on a 1 + 1 dimensional model suggests that terrace-length dependent desorption of deposited ad-molecules is an essential cause of the step dynamics, and it influences the morphology evolution., Comment: 21 pages, 9 figures, and one table

Published

2023

9. Efficient end-to-end simulation of time-dependent coherent X-ray scattering experiments

Author

Himanshu Goel, Oleg Chubar, Ruizi Li, Lutz Wiegart, Max Rakitin, and Andrei Fluerasu

Subjects

synchrotron radiation workshop, x-ray photon correlation spectroscopy, coherent-mode decomposition, gpu acceleration, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798, Crystallography, QD901-999

Abstract

Physical optics simulations for beamlines and experiments allow users to test experiment feasibility and optimize beamline settings ahead of beam time in order to optimize valuable beam time at synchrotron light sources like NSLS-II. Further, such simulations also help to develop and test experimental data processing methods and software in advance. The Synchrotron Radiation Workshop (SRW) software package supports such complex simulations. We demonstrate how recent developments in SRW significantly improve the efficiency of physical optics simulations, such as end-to-end simulations of time-dependent X-ray photon correlation spectroscopy experiments with partially coherent undulator radiation (UR). The molecular dynamics simulation code LAMMPS was chosen to model the sample: a solution of silica nanoparticles in water at room temperature. Real-space distributions of nanoparticles produced by LAMMPS were imported into SRW and used to simulate scattering patterns of partially coherent hard X-ray UR from such a sample at the detector. The partially coherent UR illuminating the sample can be represented by a set of orthogonal coherent modes obtained by simulation of emission and propagation of this radiation through the coherent hard X-ray (CHX) scattering beamline followed by a coherent-mode decomposition. GPU acceleration is added for several key functions of SRW used in propagation from sample to detector, further improving the speed of the calculations. The accuracy of this simulation is benchmarked by comparison with experimental data.

Published

2024

10. Exploring Nanofibrous Networks with X-ray Photon Correlation Spectroscopy

Author

Rosén, Tomas, He, HongRui, Wang, Ruifu, Gordeyeva, Korneliya, Motezakker, Ahmad Reza, Fluerasu, Andrei, Söderberg, L. Daniel, and Hsiao, Benjamin S.

Subjects

Condensed Matter - Soft Condensed Matter, Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Chemical Physics

Abstract

Nanofibrous networks are the foundation and natural building strategy for all life forms on our planet. Apart from providing structural integrity to cells and tissues, they also provide a porous scaffold allowing transport of substances, where the resulting properties rely on the nanoscale network structure. Recently, there has been a great deal of interest in extracting and reassembling biobased nanofibers to create sustainable, advanced materials with applications ranging from high-performance textiles to artificial tissues. However, achieving structural control of the extracted nanofibers is challenging as it is strongly dependent on the extraction methods and source materials. Furthermore, the small nanofiber cross-sections and fast Brownian dynamics make them notoriously difficult to characterize in dispersions. In this work, we study the diffusive motion of spherical gold nanoparticles in semi-dilute networks of cellulose nanofibers (CNFs) using X-ray Photon Correlation Spectroscopy (XPCS). We find that the motion becomes increasingly subdiffusive with higher CNF concentration, where the dynamics can be decomposed into several superdiffusive relaxation modes in reciprocal space. Using simulations of confined Brownian dynamics in combination with simulated XPCS-experiments, we observe that the dynamic modes can be connected to pore sizes and inter-pore transport properties in the network. The demonstrated analytical strategy by combining experiments using tracer particles with a digital twin may be the key to understand nanoscale properties of nanofibrous networks., Comment: 57 pages, 17 figures, supplementary material

Published

2022

11. Measurement of Ehrlich-Schwoebel barrier contribution to the self-organized formation of ordered surface patterns on Ge(001)

Author

Myint, Peco, Erb, Denise, Zhang, Xiaozhi, Wiegart, Lutz, Zhang, Yugang, Fluerasu, Andrei, Headrick, Randall L., Facsko, Stefan, and Ludwig, Jr, Karl F.

Subjects

Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Normal incidence 1 keV Ar$^+$ ion bombardment leads to amorphization and ultrasmoothing of Ge at room temperature, but at elevated temperatures the Ge surface remains crystalline and is unstable to the formation of self-organized nanoscale patterns of ordered pyramid-shaped pits. The physical phenomenon distinguishing the high temperature patterning from room temperature ultrasmoothing is believed to be a surface instability due to the Ehrlich-Schwoebel barrier for diffusing vacancies and adatoms, which is not present on the amorphous material. This real-time GISAXS study compares smoothing of a pre-patterned Ge sample at room temperature with patterning of an initially flat Ge sample at an elevated temperature. In both experiments, when the nanoscale structures are relatively small in height, the average kinetics can be explained by a linear theory. The linear theory coefficients, indicating surface stability or instability, were extracted for both experiments. A comparison between the two measurements allows estimation of the contribution of the Ehrlich-Schwoebel barrier to the self-organized formation of ordered nanoscale patterns on crystalline Ge surfaces., Comment: 5 pages, 5 figures. arXiv admin note: text overlap with arXiv:2007.12294, arXiv:2007.12253

Published

2020

12. Nanoscale dynamics during self-organized ion beam patterning of Si: II. Kr$^+$ Bombardment

Author

Myint, Peco, Ludwig Jr., Karl F., Wiegart, Lutz, Zhang, Yugang, Fluerasu, Andrei, Zhang, Xiaozhi, and Headrick, Randall L.

Subjects

Condensed Matter - Materials Science

Abstract

Despite extensive study, fundamental understanding of self-organized patterning by broad-beam ion bombardment is still incomplete and controversial. Understanding the nanopatterning of elemental semiconductors, particularly silicon, is both foundational for the broader field and of intrinsic scientific and technological interest itself. This is the second component of a two-part investigation of the kinetics and fluctuation dynamics of self-organized nanoscale ripple development on silicon during 1 keV Ar$^+$ (Part I) and Kr$^+$ bombardment. Here, it's found that the ion-enhanced viscous flow relaxation is essentially equal for Kr$^+$-induced patterning as previously found for Ar$^+$ patterning. The magnitude of the surface curvature dependent roughening rate in the early stage kinetics is larger for Kr$^+$ than for Ar$^+$, qualitatively consistent with expectations for erosive and mass redistributive contributions to the initial surface instability. As with the Ar$^+$ case, fluctuation dynamics in the late stage show a peak in correlation time at the length scale corresponding to the dominant structural feature on the surface -- the ripples. Analogy is made to the phenomenon of de Gennes narrowing in liquids, but significant differences are also pointed out. Finally, it's shown that speckle motion during the surface evolution can be analyzed to determine spatial inhomogeneities in erosion rate and ripple velocity on the surface. This allows the direction and speed of ripple motion to be measured in real time, a unique capability for measuring these fundamental parameters outside the specialized environment of FIB/SEM systems., Comment: 11 pages, 13 figures

Published

2020

13. Nanoscale dynamics during self-organized ion beam patterning of Si: I. Ar$^+$ Bombardment

Author

Myint, Peco, Ludwig Jr., Karl F., Wiegart, Lutz, Zhang, Yugang, Fluerasu, Andrei, Zhang, Xiaozhi, and Headrick, Randall L.

Subjects

Condensed Matter - Materials Science

Abstract

Coherent grazing-incidence small-angle X-ray scattering is used to investigate the average kinetics and the fluctuation dynamics during self-organized nanopatterning of silicon by Ar$^+$ bombardment at 65$^{\circ}$ polar angle. At early times, the surface behavior can be understood within the framework of linear theory. The transition away from the linear theory behavior is observed in the dynamics through the intensity correlation function. It quickly evolves to exhibit stretched exponential decay on short length scales and compressed exponential decay on length scales corresponding the dominant structural length scale - the ripple wavelength. The correlation times also peak strongly at the ripple length scale. This behavior has notable similarities but also significant differences with the phenomenon of de Gennes narrowing. Overall, this dynamics behavior is found to be consistent with simulations of a nonlinear growth model., Comment: 10 pages, 12 figures

Published

2020

14. de Gennes Narrowing and the Relationship Between Structure and Dynamics in Self-Organized Ion Beam Nanopatterning

Author

Myint, Peco, Ludwig, Jr., Karl F., Wiegart, Lutz, Zhang, Yugang, Fluerasu, Andrei, Zhang, Xiaozhi, and Headrick, Randall L.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Investigating the relationship between structure and dynamical processes is a central goal in condensed matter physics. Perhaps the most noted relationship between the two is the phenomenon of de Gennes narrowing, in which relaxation times in liquids are proportional to the scattering structure factor. Here a similar relationship is discovered during the self-organized ion beam nanopatterning of silicon using coherent x-ray scattering. However, in contrast to the exponential relaxation of fluctuations in classic de Gennes narrowing, the dynamic surface exhibits a wide range of behaviors as a function of length scale, with a compressed exponential relaxation at lengths corresponding to the dominant structural motif - self-organized nanoscale ripples. These behaviors are reproduced in simulations of a nonlinear model describing the surface evolution. We suggest that the compressed exponential behavior observed here is due to the morphological persistence of the self-organized surface ripple patterns which form and evolve during ion beam nanopatterning., Comment: 4 pages, 4 figures

Published

2020

15. Microscale dynamics in thermoreversible hydrogels: Impact of probe size and concentration

Author

Zhu, Hengwei, Quah-Ivarson, Suan P., Zhang, Yugang, Fluerasu, Andrei, Yu, Xiaoxi, Zheng, Bingqian, Yin, Xuechen, Liu, Weiping, and Bhatia, Surita R.

Published

2023

16. Dynamics at the crystal-melt interface in a supercooled chalcogenide liquid near the glass transition.

Author

Li, Jianheng, Jangid, Rahul, Zhu, Weidi, Kohne, Chris, Fluerasu, Andrei, Zhang, Yugang, Sen, Sabyasachi, and Kukreja, Roopali

Abstract

Direct quantitative measurements of nanoscale dynamical processes associated with structural relaxation and crystallization near the glass transition are a major experimental challenge. These type of processes have been primarily treated as macroscopic phenomena within the framework of phenomenological models and bulk experiments. Here, we report x-ray photon correlation spectroscopy measurements of dynamics at the crystal-melt interface during the radiation induced formation of Se nano-crystallites in pure Se and in binary AsSe4 glass-forming liquids near their glass transition temperature. We observe a heterogeneous dynamical behaviour where the intensity correlation functions g2(q, t) exhibits either a compressed or a stretched exponential decay, depending on the size of the Se nano-crystallites. The corresponding relaxation timescale for the AsSe4 liquid increases as the temperature is raised, which can be attributed to changes in the chemical composition of the melt at the crystal-melt interface with the growth of the Se nano-crystallites.

Published

2020

17. First measurement of a long-lived $\pi^+ \pi^-$ atom lifetime

Author

Adeva, B., Afanasyev, L., Anania, A., Aogaki, S., Benelli, A., Brekhovskikh, V., Cechak, T., Chiba, M., Chliapnikov, P. V., Doskarova, P., Drijard, D., Dudarev, A., Dumitriu, D., Fluerasu, D., Gorin, A., Gorchakov, O., Gritsay, K., Guaraldo, C., Gugiu, M., Hansroul, M., Hons, Z., Horikawa, S., Iwashita, Y., Karpukhin, V., Kluson, J., Kobayashi, M., Kruglov, V., Kruglova, L., Kulikov, A., Kulish, E., Lamberto, A., Lanaro, A., Lednicky, R., Mariñas, C., Martincik, J., Nemenov, L., Nikitin, M., Okada, K., Olchevskii, V., Ovsiannikov, V., Pentia, M., Penzo, A., Plo, M., Prusa, P., Rappazzo, G. F., Vidal, A. Romero, Ryazantsev, A., Rykalin, V., Saborido, J., Schacher, J., Sidorov, A., Smolik, J., Takeutchi, F., Trojek, T., Trusov, S., Vrba, T., Yazkov, V., Yoshimura, Y., and Zrelov, P.

Subjects

High Energy Physics - Experiment, Nuclear Experiment

Abstract

The adapted DIRAC experiment at the CERN PS accelerator observed for the first time long-lived hydrogen-like $\pi^+\pi^-$ atoms, produced by protons hitting a beryllium target. A part of these atoms crossed the gap of 96~mm and got broken up in the 2.1~\textmu{}m thick platinum foil. Analysing the observed number of atomic pairs, $n_A^L= \left.436^{+157}_{-61}\right|_\mathrm{tot}$, the lifetime of the 2$p$ state is found to be ${\tau_{2p}=(\left.0.45^{+1.08}_{-0.30}\right|_\mathrm{tot}) \cdot10^{-11}}$s, not contradicting the corresponding QED $2p$ state lifetime ${\tau_{2p}^\mathrm{QED}=1.17 \cdot 10^{-11}}$s. This lifetime value is three orders of magnitude larger than our previously measured value of the $\pi^+\pi^-$ atom ground state lifetime $\tau=(\left.3.15^{+0.28}_{-0.26}\right|_\mathrm{tot})\cdot 10^{-15}$s. Further studies of long-lived $\pi^+\pi^-$ atoms will allow to measure energy differences between $p$ and $s$ atomic states and so to determine $\pi\pi$ scattering lengths with the aim to check QCD predictions., Comment: 7 pages, 8 figures

Published

2018

18. Coherent X-ray measurement of step-flow propagation during growth on polycrystalline thin film surfaces

Author

Headrick, Randall L., Ulbrandt, Jeffrey G., Myint, Peco, Wan, Jing, Li, Yang, Fluerasu, Andrei, Zhang, Yugang, Wiegart, Lutz, and Ludwig, Jr, Karl F.

Subjects

Condensed Matter - Materials Science

Abstract

The properties of artificially grown thin films are strongly affected by surface processes during growth. Coherent X-rays provide an approach to better understand such processes and fluctuations far from equilibrium. Here we report results for vacuum deposition of C$_{60}$ on a graphene-coated surface investigated with X-ray Photon Correlation Spectroscopy in surface-sensitive conditions. Step-flow is observed through measurement of the step-edge velocity in the late stages of growth after crystalline mounds have formed. We show that the step-edge velocity is coupled to the terrace length, and that there is a variation in the velocity from larger step spacing at the center of crystalline mounds to closely-spaced, more slowly propagating steps at their edges. The results extend theories of surface growth, since the behavior is consistent with surface evolution driven by processes that include surface diffusion, the motion of step-edges, and attachment at step edges with significant step-edge barriers., Comment: 14 pages and 7 figures

Published

2018

19. Measurement of the $\pi K$ atom lifetime and the $\pi K$ scattering length

Author

DIRAC Collaboration, Adeva, B., Afanasyev, L., Allkofer, Y., Amsler, C., Anania, A., Aogaki, S., Benelli, A., Brekhovskikh, V., Cechak, T., Chiba, M., Chliapnikov, P., Drijard, D., Dudarev, A., Dumitriu, D., Federicova, P., Fluerasu, D., Gorin, A., Gorchakov, O., Gritsay, K., Guaraldo, C., Gugiu, M., Hansroul, M., Hons, Z., Horikawa, S., Iwashita, Y., Karpukhin, V., Kluson, J., Kobayashi, M., Kruglov, V., Kruglova, L., Kulikov, A., Kulish, E., Kuptsov, A., Lamberto, A., Lanaro, A., Lednicky, R., Marinas, C., Martincik, J., Nemenov, L., Nikitin, M., Okada, K., Olchevskii, V., Pentia, M., Penzo, A., Plo, M., Prusa, P., Rappazzo, G., Vidal, A. Romero, Ryazantsev, A., Rykalin, V., Saborido, J., Schacher, J., Sidorov, A., Smolik, J., Takeutchi, F., Tauscher, L., Trojek, T., Trusov, S., Urban, T., Vrba, T., Yazkov, V., Yoshimura, Y., Zhabitsky, M., and Zrelov, P.

Subjects

High Energy Physics - Experiment, Nuclear Experiment

Abstract

After having announced the statistically significant observation (5.6~$\sigma$) of the new exotic $\pi K$ atom, the DIRAC experiment at the CERN proton synchrotron presents the measurement of the corresponding atom lifetime, based on the full $\pi K$ data sample: $\tau = (5.5^{+5.0}_{-2.8}) \cdot 10^{-15}s$. By means of a precise relation ($<1\%$) between atom lifetime and scattering length, the following value for the S-wave isospin-odd $\pi K$ scattering length $a_0^{-}~=~\frac{1}{3}(a_{1/2}-a_{3/2})$ has been derived: $\left|a_0^-\right| = (0.072^{+0.031}_{-0.020}) M_{\pi}^{-1}$., Comment: 18 pages, 17 figures

Published

2017

20. Current developments in bruxism identification

Author

Mirela Ioana Fluerasu, Denisa Ciurte, Andra Nichimis, Cezar Muntean, Andrea Chisnoiu, Antonela Berar, Smaranda Buduru, and Oana Almasan

Subjects

bruxism, occlusion, stress, polysomnography, Science

Abstract

Background and Objectives: Bruxism is a parafunctional activity that can have several causes. Patients with bruxism need an interdisciplinary approach to treatment planning and individual-ized treatment options. The present study evaluates dentists' knowledge of the bruxism condi-tion and their need for further education. Diagnosis and treatment methods used by practicians from different specialties are emphasized. Materials and Methods: A prospective cross-sectional, observational, and analytical cohort study was conducted. It employed a questionnaire based on information on etiology, diagnosis, and treatment methods and included data from 80 dental practitioners from Cluj County. Results: Most dentists (81.3%) recognized awake and sleep bruxism as separate entities. Most participants identified psychological status as the primary etiological factor (80%), followed by occlusal interferences (13.8%) and other factors (genetics). Anamnesis and clinical examination were performed for bruxism diagnosis (90%). Occlusal balance (%) and occlusal splints (%) were the most encountered treatment methods. Only 27.5% of the practitioners referred patients to other specialists. Physiotherapy and psychotherapy were the primary interdisciplinary ap-proaches. Cognitive behavioral therapy was employed by 43.8%, whereas pharmaceutical ther-apy by 20% of the practitioners. Conclusions. There is a need for standardized training among dentists due to a lack of infor-mation on this topic. When combined with an interdisciplinary approach, complementary diag-nostic methods such as polysomnography and BruxApp can yield accurate diagnosis.

Published

2023

21. Structural Dynamics of Materials Probed by X-Ray Photon Correlation Spectroscopy

Author

Madsen, Anders, Fluerasu, Andrei, Ruta, Beatrice, Jaeschke, Eberhard J., editor, Khan, Shaukat, editor, Schneider, Jochen R., editor, and Hastings, Jerome B., editor

Published

2020

22. Ink-substrate interactions during 3D printing revealed by time-resolved coherent X-ray scattering

Author

Torres Arango, M., Zhang, Y., Zhao, C., Li, R., Doerk, G., Nykypanchuk, D., Chen-Wiegart, Y-c. K., Fluerasu, A., and Wiegart, L.

Published

2020

23. Local step-flow dynamics in thin film growth with desorption

Author

Zhang, Xiaozhi, primary, Ulbrandt, Jeffrey G., additional, Myint, Peco, additional, Fluerasu, Andrei, additional, Wiegart, Lutz, additional, Zhang, Yugang, additional, Nelson, Christie, additional, Ludwig, Karl F., additional, and Headrick, Randall L., additional

Published

2024

24. Coherent X-ray Spectroscopy Elucidates Nanoscale Dynamics of Plasma-Enhanced Thin-Film Growth

Author

Myint, Peco, primary, Woodward, Jeffrey M., additional, Wang, Chenyu, additional, Zhang, Xiaozhi, additional, Wiegart, Lutz, additional, Fluerasu, Andrei, additional, Headrick, Randall L., additional, Eddy, Charles R., additional, and Ludwig, Karl F., additional

Published

2024

25. New Preshower detector for DIRAC Experiment

Author

Pentia, M., Aogaki, S., Dumitriu, D., Fluerasu, D., Gugiu, M., and Yazkov, V.

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

The Preshower (PSh) detector is a component of the DIRAC setup. It is designed to improve rejection efficiency of e-e+ pairs background in the {\pi}{\pi} and K{\pi} pair measurement. To increase the overall efficiency, a new two-layer structure scintillator Preshower detector has been realized in the region where the Nitrogen Cherenkov detector has been shortened to introduce new detectors. The new Preshower-Cherenkov combination ensures the electron rejection efficiency better than 99.9% in momentum region 1-7 GeV/c., Comment: to be published in NIMA

Published

2014

26. First $\pi K$ atom lifetime and $\pi K$ scattering length measurements

Author

Adeva, B., Afanasyev, L., Allkofer, Y., Amsler, C., Anania, A., Aogaki, S., Benelli, A., Brekhovskikh, V., Cechak, T., Chiba, M., Chliapnikov, P., Ciocarlan, C., Constantinescu, S., Doskarova, P., Drijard, D., Dudarev, A., Duma, M., Dumitriu, D., Fluerasu, D., Gorin, A., Gorchakov, O., Gritsay, K., Guaraldo, C., Gugiu, M., Hansroul, M., Hons, Z., Horikawa, S., Iwashita, Y., Karpukhin, V., Kluson, J., Kobayashi, M., Kruglov, V., Kruglova, L., Kulikov, A., Kulish, E., Kuptsov, A., Lamberto, A., Lanaro, A., Lednicky, R., Mariñas, C., Martincik, J., Nemenov, L., Nikitin, M., Okada, K., Olchevskii, V., Pentia, M., Penzo, A., Plo, M., Ponta, T., Prusa, P., Rappazzo, G., Vidal, A. Romero, Ryazantsev, A., Rykalin, V., Schacher, J., Sidorov, A., Smolik, J., Sugimoto, S., Takeutchi, F., Tauscher, L., Trojek, T., Trusov, S., Urban, T., Vrba, T., Yazkov, V., Yoshimura, Y., Zhabitsky, M., and Zrelov, P.

Subjects

Nuclear Experiment, High Energy Physics - Experiment

Abstract

The results of a search for hydrogen-like atoms consisting of $\pi^{\mp}K^{\pm}$ mesons are presented. Evidence for $\pi K$ atom production by 24 GeV/c protons from CERN PS interacting with a nickel target has been seen in terms of characteristic $\pi K$ pairs from their breakup in the same target ($178 \pm 49$) and from Coulomb final state interaction ($653 \pm 42$). Using these results the analysis yields a first value for the $\pi K$ atom lifetime of $\tau=(2.5_{-1.8}^{+3.0})$ fs and a first model-independent measurement of the S-wave isospin-odd $\pi K$ scattering length $\left|a_0^-\right|=\frac{1}{3}\left|a_{1/2}-a_{3/2}\right|= \left(0.11_{-0.04}^{+0.09} \right)M_{\pi}^{-1}$ ($a_I$ for isospin $I$)., Comment: 14 pages, 8 figures

Published

2014

27. Dynamics in dense hard-sphere colloidal suspensions

Author

Orsi, Davide, Fluerasu, Andrei, Moussaid, Abdellatif, Zontone, Federico, Cristofolini, Luigi, and Madsen, Anders

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

The dynamic behavior of a hard-sphere colloidal suspension was studied by X-ray Photon Correlation Spectroscopy and Small Angle X-ray Scattering over a wide range of particle volume fractions. The short-time mobility of the particles was found to be smaller than that of free particles even at relatively low concentrations, showing the importance of indirect hydrodynamic interactions. Hydrodynamic functions were derived from the data and for moderate particle volume fractions (> 0.40) there is a good agreement with earlier many-body theory calculations by Beenakker and Mazur [C.W.J. Beenakker and P. Mazur, Physica A 120, 349 (1984)]. Important discrepancies appear at higher concentrations, above ~0.40, where the hydrodynamic effects are overestimated by the Beenakker-Mazur theory, but predicted accurately by an accelerated Stokesian dynamics algorithm developed by Banchio and Brady [A.J. Banchio and J. F. Brady, J. Chem. Phys. 118, 10323 (2003)]. For the relaxation rates, good agreement was also found between the experimental data and a scaling form predicted by Mode Coupling Theory. In the high concentration range, with the fluid suspensions approaching the glass transition, the long-time diffusion coefficient was compared with the short-time collective diffusion coefficient to verify a scaling relation previously proposed by Segre and Pusey [P.N. Segre and P.N. Pusey, Phys. Rev. Lett. 77, 771 (1996)]. We discuss our results in view of previous experimental attempts to validate this scaling law [L. Lurio et al., Phys. Rev. Lett. 84, 785 (2000)], Comment: 10 pages, 10 figures, to appear in Phys. Rev. E

Published

2011

28. Slow dynamics in an azopolymer molecular layer studied by x-ray photon correlation spectroscopy

Author

Orsi, Davide, Cristofolini, Luigi, Fontana, Marco P., Madsen, Anders, and Fluerasu, Andrei

Subjects

Condensed Matter - Soft Condensed Matter, Condensed Matter - Mesoscale and Nanoscale Physics, 82C26

Abstract

We report the results of X-ray photon correlation spectroscopy (XPCS) experiments on Langmuir Blodgett multilayers of a photosensitive azo-polymer. Time correlation functions have been measured at different temperatures and momentum transfers (q) and under different illumination conditions (darkness, UV or visible). The correlation functions are well described by the Kohlrausch-Williams-Watts (KWW) form with relaxation times that are proportional to q^-1, which in other systems have been explained in terms of intermittent rearrangements [L. Cipelletti et al., Phys. Rev. Lett. 84, 2275-2278 (2000)] or random dipolar interactions within an elastic medium [J.- P. Bouchaud and E. Pitard, Eur. Phys. J. E 6, 231-236 (2001)]. The characteristic relaxation times follow the well known Vogel-Fulcher-Tammann law describing the temperature dependence of the bulk viscosity of this polymer. UV photoperturbation accelerates the relaxation dynamics, in qualitative agreement with the fluidification effect of UV photo-perturbation previously observed by surface rheometry, and is used to drive the system out of equilibrium. Transient dynamics is characterized, by the variance chi of the two-times correlation functions. A clear peak in chi appears at a well defined time tau_C which scales with q^-1 and with the ageing time, in a similar fashion as previously reported in colloidal suspensions [O. Dauchot et al., Phys. Rev. Lett. 95, 265701 (2005)]. From an accurate analysis of the correlation functions we could demonstrate a temperature dependent cross-over from KWW compressed to simple exponential behaviour, which is modified by the fluidification due to the optical pumping of the cis-trans isomerisation of the side-chain azobenzene group., Comment: 13 pages, 7 figures, ESRF

Published

2010

29. Dynamics and rheology under continuous shear flow studied by X-ray photon correlation spectroscopy

Author

Fluerasu, Andrei, Kwasniewski, Pawel, Caronna, Chiara, Destremaut, Fanny, Salmon, Jean-Baptiste, and Madsen, Anders

Subjects

Condensed Matter - Soft Condensed Matter, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

X-ray Photon Correlation Spectroscopy (XPCS) has emerged as a unique technique allowing the measurement of dynamics in materials on mesoscopic lengthscales. In particular, applications in soft matter physics cover a broad range of topics which include, but are not limited to, nanostructured materials such as colloidal suspensions or polymers, dynamics at liquid surfaces, membranes and interfaces, and the glass or gel transition. One of the most common problems associated with the use of bright X-ray beams with soft materials is beam induced radiation damage, and this is likely to become an even more limiting factor at future synchrotron and free electron laser sources. Flowing the sample during data acquisition is one of the simplest method allowing to limit the radiation damage. In addition to distributing the dose over many different scatterers, the method also enables new functionalities such as time-resolved studies in mixing cells. Here, we further develop an experimental technique that was recently proposed combining XPCS and continuously flowing samples. More specifically, we use a model system to show how the macroscopic advective response to flow and the microscopic dissipative dynamics (diffusion) can be quantified from the X-ray data. The method has many potential applications, e.g. dynamics of glasses and gels under continuous shear/flow, protein aggregations processes, the interplay between dynamics and rheology in complex fluids., Comment: 11 pages, 5 figures

Published

2010

30. Efficient end-to-end simulation of time-dependent coherent X-ray scattering experiments.

Author

Goel, Himanshu, Chubar, Oleg, Ruizi Li, Wiegart, Lutz, Rakitin, Max, and Fluerasu, Andrei

Subjects

UNDULATOR radiation, SYNCHROTRON radiation, X-ray scattering, COHERENT scattering, LIGHT beating spectroscopy, FREE electron lasers

Abstract

Physical optics simulations for beamlines and experiments allow users to test experiment feasibility and optimize beamline settings ahead of beam time in order to optimize valuable beam time at synchrotron light sources like NSLS-II. Further, such simulations also help to develop and test experimental data processing methods and software in advance. The Synchrotron Radiation Workshop (SRW) software package supports such complex simulations. We demonstrate how recent developments in SRW significantly improve the efficiency of physical optics simulations, such as end-to-end simulations of time-dependent X-ray photon correlation spectroscopy experiments with partially coherent undulator radiation (UR). The molecular dynamics simulation code LAMMPS was chosen to model the sample: a solution of silica nanoparticles in water at room temperature. Real-space distributions of nanoparticles produced by LAMMPS were imported into SRW and used to simulate scattering patterns of partially coherent hard X-ray UR from such a sample at the detector. The partially coherent UR illuminating the sample can be represented by a set of orthogonal coherent modes obtained by simulation of emission and propagation of this radiation through the coherent hard X-ray (CHX) scattering beamline followed by a coherent-mode decomposition. GPU acceleration is added for several key functions of SRW used in propagation from sample to detector, further improving the speed of the calculations. The accuracy of this simulation is benchmarked by comparison with experimental data. [ABSTRACT FROM AUTHOR]

Published

2024

31. Current developments in bruxism identification

Author

Fluerasu, Mirela Ioana, primary, Ciurte, Denisa, additional, Nichimis, Andra, additional, Muntean, Cezar, additional, Chisnoiu, Andrea, additional, Berar, Antonela, additional, Buduru, Smaranda, additional, and Almasan, Oana, additional

Published

2023

32. Fluctuation X-ray scattering from nanorods in solution reveals weak temperature-dependent orientational ordering

Author

Ruslan P. Kurta, Lutz Wiegart, Andrei Fluerasu, and Anders Madsen

Subjects

nanoscience, small-angle X-ray scattering, SAXS, correlated fluctuations, X-ray free-electron lasers, XFELs, Crystallography, QD901-999

Abstract

Higher-order statistical analysis of X-ray scattering from dilute solutions of polydisperse goethite nanorods was performed and revealed structural information which is inaccessible by conventional small-angle scattering. For instance, a pronounced temperature dependence of the correlated scattering from suspension was observed. The higher-order scattering terms deviate from those expected for a perfectly isotropic distribution of particle orientations, demonstrating that the method can reveal faint orientational order in apparently disordered systems. The observation of correlated scattering from polydisperse particle solutions is also encouraging for future free-electron laser experiments aimed at extracting high-resolution structural information from systems with low particle heterogeneity.

Published

2019

33. Coherent X-ray measurement of step-flow propagation during growth on polycrystalline thin film surfaces

Author

Randall L. Headrick, Jeffrey G. Ulbrandt, Peco Myint, Jing Wan, Yang Li, Andrei Fluerasu, Yugang Zhang, Lutz Wiegart, and Karl F. Ludwig

Subjects

Science

Abstract

Monitoring growth dynamics of crystalline thin materials progressively is crucial to understand the mechanism. Here, the authors develop a local step flow model to investigate the growth of C60 films on graphene coated over silicon substrates that correlates the step-edge velocity with its terrace lengths using the X-ray photon correlation spectroscopy.

Published

2019

34. Dynamics in shear flow studied by X-ray Photon Correlation Spectroscopy

Author

Busch, Sebastian, Jensen, Torben Haugaard, Chushkin, Yuriy, and Fluerasu, Andrei

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

X-ray photon correlation spectroscopy was used to measure the diffusive dynamics of colloidal particles in a shear flow. The results presented here show how the intensity autocorrelation functions measure both the diffusive dynamics of the particles and their flow-induced, convective motion. However, in the limit of low flow/shear rates, it is possible to obtain the diffusive component of the dynamics, which makes the method suitable for the study of the dynamical properties of a large class of complex soft-matter and biological fluids. An important benefit of this experimental strategy over more traditional X-ray methods is the minimization of X-ray induced beam damage. While the method can be applied also for photon correlation spectroscopy in the visible domain, our analysis shows that the experimental conditions under which it is possible to measure the diffusive dynamics are easier to achieve at higher q values (with X-rays)., Comment: 9 pages, 7 figures, to appear in Eur. Phys. J. E

Published

2008

35. X-ray photon correlation spectroscopy under flow

Author

Fluerasu, Andrei, Moussaid, Abdellatif, Gleyzolle, Henri, Falus, Peter, and Madsen, Anders

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

X-ray photon correlation spectroscopy was used to probe the diffusive dynamics of colloidal particles in a shear flow. Combining X-ray techniques with microfluidics is an experimental strategy that reduces the risk of x-ray induced beam damage and also allows time-resolved studies of processes taking place in flowcells. The experimental results and theoretical predictions presented here, show that in the low shear limit, for a ``transverse flow'' scattering geometry (scattering wave vector q perpendicular to the direction of flow) the measured relaxation times are independent of the flow rate and determined only by the diffusive motion of the particles. This is not generally valid and in particular, for a ``longitudinal flow'' (q || flow) scattering geometry, the relaxation times are strongly affected by the flow-induced motion of the particles. Our results show that the Brownian diffusion of colloidal particles can be measured in a flowing sample and that, up to flux limitations, the experimental conditions under which this is possible are easier to achieve at higher values of q., Comment: 7 pages, 5 figures, to appear in J. Synchrotron Rad

Published

2008

36. Title Coherent X-ray Studies of Surface Growth and Patte ring Processes

Author

Fluerasu, Andrei, primary, Wiegart, Lutz, additional, Headrick, Randall, additional, Li, Yang, additional, Myint, Peco, additional, Ulbrandt, Jeffrey, additional, Zhang, Xiaozhi, additional, Zhang, Yugang, additional, Ludwig, Karl, additional, and Mokhtarzadeh, Mahsa, additional

Published

2022

37. The SrTiO$_3$ displacive transition revisited by Coherent X-ray Diffraction

Author

Ravy, S., Bolloc'h, D. Le, Currat, R., Fluerasu, A., Mocuta, C., and Dkhil, B.

Subjects

Condensed Matter - Materials Science

Abstract

We present a Coherent X-ray Diffraction study of the antiferrodistortive displacive transition of SrTiO$_3$, a prototypical example of a phase transition for which the critical fluctuations exhibit two length scales and two time scales. From the microbeam x-ray coherent diffraction patterns, we show that the broad (short-length scale) and the narrow (long-length scale) components can be spatially disentangled, due to 100 $\mu$m-scale spatial variations of the latter. Moreover, both components exhibit a speckle pattern, which is static on a $\sim$10 mn time-scale. This gives evidence that the narrow component corresponds to static ordered domains. We interpret the speckles in the broad component as due to a very slow dynamical process, corresponding to the well-known \emph{central} peak seen in inelastic neutron scattering., Comment: 4 pages, 3 figures, accepted in PRL

Published

2006

38. Rheology and dynamics of a solvent segregation driven gel (SeedGel)

Author

Yuyin Xi, Ryan P. Murphy, Qingteng Zhang, Aurora Zemborain, Suresh Narayanan, Junsu Chae, Siyoung Q. Choi, Andrei Fluerasu, Lutz Wiegart, and Yun Liu

Subjects

General Chemistry, Condensed Matter Physics

Abstract

Bicontinuous structures promise applications in a broad range of research fields, such as energy storage, membrane science, and biomaterials. Kinetically arrested spinodal decomposition is found responsible for stabilizing such structures in different types of materials. A recently developed solvent segregation driven gel (SeedGel) is demonstrated to realize bicontinuous channels thermoreversibly with tunable domain sizes by trapping nanoparticles in a particle domain. As the mechanical properties of SeedGel are very important for its future applications, a model system is characterized by temperature-dependent rheology. The storage modulus shows excellent thermo-reproducibility and interesting temperature dependence with the maximum storage modulus observed at an intermediate temperature range (around 28 °C). SANS measurements are conducted at different temperatures to identify the macroscopic solvent phase separation during the gelation transition, and solvent exchange between solvent and particle domains that is responsible for this behavior. The long-time dynamics of the gel is further studied by X-ray Photon Correlation Spectroscopy (XPCS). The results indicate that particles in the particle domain are in a glassy state and their long-time dynamics are strongly correlated with the temperature dependence of the storage modulus.

Published

2023

39. Exploring nanofibrous networks with x-ray photon correlation spectroscopy through a digital twin

Author

Rosén, Tomas, primary, He, HongRui, additional, Wang, Ruifu, additional, Gordeyeva, Korneliya, additional, Motezakker, Ahmad Reza, additional, Fluerasu, Andrei, additional, Söderberg, L. Daniel, additional, and Hsiao, Benjamin S., additional

Published

2023

40. Structural Dynamics of Materials Probed by X-Ray Photon Correlation Spectroscopy

Author

Madsen, Anders, Fluerasu, Andrei, Ruta, Beatrice, Jaeschke, Eberhard J., editor, Khan, Shaukat, editor, Schneider, Jochen R., editor, and Hastings, Jerome B., editor

Published

2016

41. Ghost imaging to see internal structure of a biological object with x-ray-based speckle illumination

Author

Ashok, Amit, Greenberg, Joel A., Gehm, Michael E., Karmakar, Sanjit, Goodrich, Justin, Fluerasu, Andrei, Yu, Kwangmin, Da Vià, Cinzia, Nomerotski, Andrei, Siddiqui Matekole, Elisha, Berman, Lonny, Paape, Timothy, and McSweeney, Sean

Published

2024

42. Coherent amplification of X-ray scattering from meso-structures

Author

Julien R. Lhermitte, Aaron Stein, Cheng Tian, Yugang Zhang, Lutz Wiegart, Andrei Fluerasu, Oleg Gang, and Kevin G. Yager

Subjects

coherent amplification, small-angle X-ray scattering, meso-structures, Crystallography, QD901-999

Abstract

Small-angle X-ray scattering (SAXS) often includes an unwanted background, which increases the required measurement time to resolve the sample structure. This is undesirable in all experiments, and may make measurement of dynamic or radiation-sensitive samples impossible. Here, we demonstrate a new technique, applicable when the scattering signal is background-dominated, which reduces the requisite exposure time. Our method consists of exploiting coherent interference between a sample with a designed strongly scattering `amplifier'. A modified angular correlation function is used to extract the symmetry of the interference term; that is, the scattering arising from the interference between the amplifier and the sample. This enables reconstruction of the sample's symmetry, despite the sample scattering itself being well below the intensity of background scattering. Thus, coherent amplification is used to generate a strong scattering term (well above background), from which sample scattering is inferred. We validate this method using lithographically defined test samples.

Published

2017

43. Exploring nanofibrous networks with x-ray photon correlation spectroscopy through a digital twin

Author

Rosén, Tomas, He, HongRui, Wang, Ruifu, Gordeyeva, Korneliya, Motezakker, Ahmad Reza, Fluerasu, Andrei, Söderberg, Daniel, Hsiao, Benjamin S., Rosén, Tomas, He, HongRui, Wang, Ruifu, Gordeyeva, Korneliya, Motezakker, Ahmad Reza, Fluerasu, Andrei, Söderberg, Daniel, and Hsiao, Benjamin S.

Abstract

We demonstrate a framework of interpreting data from x-ray photon correlation spectroscopy experiments with the aid of numerical simulations to describe nanoscale dynamics in soft matter. This is exemplified with the transport of passive tracer gold nanoparticles in networks of charge-stabilized cellulose nanofibers. The main structure of dynamic modes in reciprocal space could be replicated with a simulated system of confined Brownian motion, a digital twin, allowing for a direct measurement of important effective material properties describing the local environment of the tracers., QC 20230904

Published

2023

44. Upgraded DIRAC spectrometer at CERN PS for the investigation of ππ and πK atoms

Author

Adeva, B., Afanasyev, L., Allkofer, Y., Amsler, C., Anania, A., Aogaki, S., Benelli, A., Brekhovskikh, V., Caragheorgheopol, Gh., Cechak, T., Chiba, M., Chliapnikov, P., Ciocarlan, C., Constantinescu, S., Detraz, C., Doskarova, P., Drijard, D., Dudarev, A., Duma, M., Dumitriu, D., Fluerasu, D., Gorin, A., Gorchakov, O., Gritsay, K., Guaraldo, C., Gugiu, M., Hansroul, M., Hons, Z., Horikawa, S., Iwashita, Y., Karpukhin, V., Kluson, J., Kobayashi, M., Kruglov, V., Kruglova, L., Kulikov, A., Kulish, E., Kuptsov, A., Lamberto, A., Lanaro, A., Lednicky, R., Mariñas, C., Martincik, J., Nemenov, L., Nikitin, M., Okada, K., Olchevskii, V., Pentia, M., Penzo, A., Plo, M., Prusa, P., Rappazzo, G.F., Vidal, A. Romero, Ryazantsev, A., Rykalin, V., Saborido, J., Schacher, J., Sidorov, A., Smolik, J., Takeutchi, F., Tauscher, L., Trojek, T., Trusov, S., Ullaland, O., Urban, T., Vrba, T., Yazkov, V., Yoshimura, Y., Zhabitsky, M., and Zrelov, P.

Published

2016

45. X Ray Photon Correlation Spectroscopy for the study of polymer dynamics

Author

Nogales, Aurora and Fluerasu, Andrei

Published

2016

46. Diffusion-based clustering analysis of coherent X-ray scattering patterns of self-assembled nanoparticles.

Author

Hao Huang 0007, Shinjae Yoo, Konstantine Kaznatcheev, Kevin G. Yager, Fang Lu, Dantong Yu, Oleg Gang, Andrei Fluerasu, and Hong Qin 0001

Published

2014

47. Structural Dynamics of Materials Probed by X-Ray Photon Correlation Spectroscopy

Author

Madsen, Anders, primary, Fluerasu, Andrei, additional, and Ruta, Beatrice, additional

Published

2018

48. Coherent X-ray measurement of step-flow propagation during growth on polycrystalline thin film surfaces

Author

Headrick, Randall L., Ulbrandt, Jeffrey G., Myint, Peco, Wan, Jing, Li, Yang, Fluerasu, Andrei, Zhang, Yugang, Wiegart, Lutz, and Ludwig, Jr., Karl F.

Published

2019

49. Rheology and dynamics of a solvent segregation driven gel (SeedGel)

Author

Xi, Yuyin, primary, Murphy, Ryan P., additional, Zhang, Qingteng, additional, Zemborain, Aurora, additional, Narayanan, Suresh, additional, Chae, Junsu, additional, Choi, Siyoung Q., additional, Fluerasu, Andrei, additional, Wiegart, Lutz, additional, and Liu, Yun, additional

Published

2023

50. New preshower detector for the DIRAC experiment

Author

Pentia, M., Aogaki, S., Dumitriu, D., Fluerasu, D., Gugiu, M., and Yazkov, V.

Published

2015