Your search keyword '"Timneanu, N."' showing total 174 results

1. Megahertz single-particle imaging at the European XFEL

Author

Sobolev, E, Zolotarev, S, Giewekemeyer, K, Bielecki, J, Okamoto, K, Reddy, HKN, Andreasson, J, Ayyer, K, Barak, I, Bari, S, Barty, A, Bean, R, Bobkov, S, Chapman, HN, Chojnowski, G, Daurer, BJ, Dörner, K, Ekeberg, T, Flückiger, L, Galzitskaya, O, Gelisio, L, Hauf, S, Hogue, BG, Horke, DA, Hosseinizadeh, A, Ilyin, V, Jung, C, Kim, C, Kim, Y, Kirian, RA, Kirkwood, H, Kulyk, O, Küpper, J, Letrun, R, Loh, ND, Lorenzen, K, Messerschmidt, M, Mühlig, K, Ourmazd, A, Raab, N, Rode, AV, Rose, M, Round, A, Sato, T, Schubert, R, Schwander, P, Sellberg, JA, Sikorski, M, Silenzi, A, Song, C, Spence, JCH, Stern, S, Sztuk-Dambietz, J, Teslyuk, A, Timneanu, N, Trebbin, M, Uetrecht, C, Weinhausen, B, Williams, GJ, Xavier, PL, Xu, C, Vartanyants, IA, Lamzin, VS, Mancuso, A, and Maia, FRNC

Abstract

The emergence of high repetition-rate X-ray free-electron lasers (XFELs) powered by superconducting accelerator technology enables the measurement of significantly more experimental data per day than was previously possible. The European XFEL is expected to provide 27,000 pulses per second, over two orders of magnitude more than any other XFEL. The increased pulse rate is a key enabling factor for single-particle X-ray diffractive imaging, which relies on averaging the weak diffraction signal from single biological particles. Taking full advantage of this new capability requires that all experimental steps, from sample preparation and delivery to the acquisition of diffraction patterns, are compatible with the increased pulse repetition rate. Here, we show that single-particle imaging can be performed using X-ray pulses at megahertz repetition rates. The results obtained pave the way towards exploiting high repetition-rate X-ray free-electron lasers for single-particle imaging at their full repetition rate.

Published

2020

2. On the feasibility of nanocrystal imaging using intense and ultrashort 1.5 {\AA} X-ray pulses

Author

Caleman, C., Huldt, G., Maia, F. R. N. C., Ortiz, C., Parak, F. G., Hajdu, J., van der Spoel, D., Chapman, H. N., and Timneanu, N.

Subjects

Physics - Biological Physics, Physics - Computational Physics

Abstract

Structural studies of biological macromolecules are severely limited by radiation damage. Traditional crystallography curbs the effects of damage by spreading damage over many copies of the molecule of interest. X-ray lasers, such as the recently built LINAC Coherent Light Source (LCLS), offer an additional opportunity for limiting damage by out-running damage processes with ultrashort and very intense X-ray pulses. Such pulses may allow the imaging of single molecules, clusters or nanoparticles, but coherent flash imaging will also open up new avenues for structural studies on nano- and micro-crystalline substances. This paper addresses the theoretical potentials and limitations of nanocrystallography with extremely intense coherent X-ray pulses. We use urea nanocrystals as a model for generic biological substances and simulate primary and secondary ionization dynamics in the crystalline sample. Our results establish conditions for ultrafast nanocrystallography diffraction experiments as a function of fluence and pulse duration., Comment: 6 pages, 4 color figures

Published

2010

3. Cryptotomography: reconstructing 3D Fourier intensities from randomly oriented single-shot diffraction patterns

Author

Loh, N. D., Bogan, M., Elser, V., Barty, A., Boutet, S., Bajt, S., Hajdu, J., Ekeberg, T., Maia, F. R. N. C., Schulz, J., Seibert, M. M., Iwan, B., Timneanu, N., Marchesini, S., Schlichting, I., Shoeman, R. L., Lomb, L., Frank, M., Liang, M., and Chapman, H. N.

Subjects

Physics - Optics, Physics - Data Analysis, Statistics and Probability

Abstract

We reconstructed the 3D Fourier intensity distribution of mono-disperse prolate nano-particles using single-shot 2D coherent diffraction patterns collected at DESY's FLASH facility when a bright, coherent, ultrafast X-ray pulse intercepted individual particles of random, unmeasured orientations. This first experimental demonstration of cryptotomography extended the Expansion-Maximization-Compression (EMC) framework to accommodate unmeasured fluctuations in photon fluence and loss of data due to saturation or background scatter. This work is an important step towards realizing single-shot diffraction imaging of single biomolecules., Comment: 4 pages, 4 figures

Published

2010

4. Radiation damage in biological material: electronic properties and electron impact ionization in urea

Author

Caleman, C., Ortiz, C., Marklund, E., Bultmark, F., Gabrysch, M., Parak, F. G., Hajdu, J., Klintenberg, M., and Timneanu, N.

Subjects

Condensed Matter - Materials Science

Abstract

Radiation damage is an unavoidable process when performing structural investigations of biological macromolecules with X-ray sources. In crystallography this process can be limited through damage distribution in a crystal, while for single molecular imaging it can be outrun by employing short intense pulses. Secondary electron generation is crucial during damage formation and we present a study in urea, as model for biomaterial. From first principles we calculate the band structure and energy loss function, and subsequently the inelastic electron cross section in urea. Using Molecular Dynamics simulations, we quantify the damage and study the magnitude and spatial extent of the electron cloud coming from an incident electron, as well as the dependence with initial energy., Comment: 6 pages, 5 figures. Several major modifications. Revised version as accepted in EPL. Corrected figures 4 and 5, corresponding to published erratum

Published

2008

5. Interaction of ultrashort X-ray pulses with B4C, SiC and Si

Author

Bergh, M., Timneanu, N., Hau-Riege, S. P., and Scott, H. A.

Subjects

Physics - Plasma Physics

Abstract

The interaction of 32.5 and 6 nm ultrashort X-ray pulses with the solid materials B4C, SiC and Si is simulated with a non-local thermodynamic equilibrium (NLTE) radiation transfer code. We study the ionization dynamics as function of depth in the material, modifications of the opacity during irradiation and estimate crater depth. Furthermore, we compare the estimated crater depth with experimental data, for fluences up to 2.2 J/cm2. Our results show that at 32.5 nm irradiation, the opacity changes with less than a factor of 2 for B4C and Si and a factor of 3 for SiC, for fluences up to 200 J/cm2. At a laser wavelength of 6 nm, the model predicts a dramatic decrease in opacity due to the weak inverse bremsstrahlung, increasing the crater depth for high fluences., Comment: 9 pages, 9 color figures

Published

2007

6. Small x Phenomenology: Summary and status 2002

Author

The Small x Collaboration, Andersen, J., Baranov, S., Collins, J., Dokshitzer, Y., Goerlich, L., Grindhammer, G., Gustafson, G., Jonsson, L., Jung, H., Kwiecinski, J., Levin, E., Lipatov, A., Lonnblad, L., Lublinsky, M., Maul, M., Milcewicz, I., Miu, G., Nowak, G., Sjostrand, T., Stasto, A., Timneanu, N., Turnau, J., and Zotov, N.

Subjects

High Energy Physics - Phenomenology

Abstract

A second workshop on small x physics, within the Small x Collaboration, was held in Lund in June 2002 with the aim of over-viewing recent theoretical progress in this area and summarizing the experimental status. This paper is dedicated to the memory of Jan Kwiecinski, who died unexpectedly on August 29, 2003., Comment: 32 pages, 33 figures

Published

2003

7. Soft colour interactions and diffractive Higgs production

Author

Enberg, R., Ingelman, G., and Timneanu, N.

Subjects

High Energy Physics - Phenomenology

Abstract

The topical subject of Higgs production in diffractive hard scattering events at the Tevatron and LHC is discussed. This has been proposed as a Higgs discovery channel with appealing experimental features. Predictions are obtained from the Soft Colour Interaction model, where rapidity gaps are created by a new soft interaction added to the normal hard scattering processes, implemented in the Monte Carlo event generator PYTHIA. A brief review of the successful application of the model to describe all CDF and DO data on diffractive hard scattering, such as production of W/Z, dijets, beauty and J/psi is also given., Comment: 3 pages, 3 figures. Talk presented by RE at the HEP2003 Conference, Aachen, Germany

Published

2003

8. Diffractive Higgs bosons and prompt photons at hadron colliders

Author

Enberg, R., Ingelman, G., and Timneanu, N.

Subjects

High Energy Physics - Phenomenology

Abstract

Models for soft color interactions have been successful in describing and predicting diffractive hard scattering processes in ep collisions at DESY HERA and ppbar at the Fermilab Tevatron. Here we present new comparisons of the model to recent diffractive dijet data, also showing good agreement. The topical issue of diffractive Higgs production at the Tevatron and LHC hadron colliders is further investigated. For H->gamma gamma the irreducible background of prompt photon pairs from qqbar->gamma gamma and gg->gamma gamma is always dominating, implying that higher branching ratio decay modes of the Higgs have to be used. However, such prompt photons can be used to test the basic prediction for Higgs production since gg->gamma gamma involves a quark loop diagram similar to gg->H., Comment: 5 pages, 4 figures, uses REVTeX4. Minor changes

Published

2002

9. Unintegrated gluon in the photon and heavy quark production

Author

Motyka, L. and Timneanu, N.

Subjects

High Energy Physics - Phenomenology

Abstract

The unintegrated gluon density in the photon is determined, using the Kimber-Martin-Ryskin prescription . In addition, a model of the unintegrated gluon is proposed, based on the saturation model extended to the large-x region. These gluon densities are applied to obtain cross sections for charm and bottom production in gamma-p and gamma-gamma collisions using the k_t factorization approach. We investigate both direct and resolved photon contributions and make comparison with the results from the collinear approach and the experimental data. An enhancement of the cross section due to inclusion of non-zero transverse momenta of the gluons is found. The charm production cross section is consistent with the data. The data exceed our conservative estimate for bottom production in gamma-p collisions, but theoretical uncertainties are too large to claim a significant inconsistency. A substantial discrepancy between theory and the experiment is found for gamma gamma -> b bbar X, not being cured by the k_t factorization approach., Comment: 24 pages, 11 figures, new references, typos corrected

Published

2002

10. Diffractive Higgs production: Soft Colour Interactions perspective

Author

Timneanu, N., Enberg, R., and Ingelman, G.

Subjects

High Energy Physics - Phenomenology

Abstract

We briefly present the soft colour interaction models which are successful in reproducing a multitude of diffractive hard scattering data, and give predictions for diffractive Higgs production at the Tevatron and LHC. Only a few diffractive Higgs events may be produced at the Tevatron, but we predict a substantial rate at the LHC., Comment: 5 pages, 3 figures, uses appolb.cls. Presented at the X International Workshop on Deep Inelastic Scattering (DIS2002), Cracow, 30 April - 4 May 2002

Published

2002

11. Two-photon cross-sections from the saturation model

Author

Kwiecinski, J., Motyka, L., and Timneanu, N.

Subjects

High Energy Physics - Phenomenology

Abstract

A saturation model for the total gamma-gamma and gamma*-gamma* cross-sections and for the real photon structure function F_2^gamma(x,Q^2) is described. The model is based on a QCD dipole picture of high energy scattering. The two-dipole cross-section is assumed to satisfy the saturation property with the saturation radius taken from the GBW analysis of the gamma*-p interaction at HERA. The model is combined with the QPM and non-pomeron reggeon contributions an it gives a very good description of the data on the gamma-gamma total cross-section, on the photon structure function F_2^gamma(x,Q^2) at low x and on the gamma*-gamma* cross-section. Production of heavy quarks in gamma-gamma collisions is also studied., Comment: 12 pages, 6 figures, uses appolb.cls. Presented at the Cracow Epiphany Conference on Quarks and Gluons in Extreme Conditions, 3-6 January 2002, Cracow, Poland

Published

2002

12. Saturation model for 2-gamma physics

Author

Timneanu, N., Kwiecinski, J., and Motyka, L.

Subjects

High Energy Physics - Phenomenology

Abstract

We introduce a saturation model for photon-photon interactions, based on a QCD dipole picture of high energy scattering. The two-dipole cross-section is assumed to satisfy the saturation property. This pomeron-like contribution is supplemented with QPM and non-pomeron reggeon contributions. The model gives a very good description of the data on the gamma-gamma total cross-section, on the photon structure function F_2^gamma(x,Q^2) at low x and on the gamma*-gamma* cross-section., Comment: 5 pages, 4 figures, uses appolb.cls. Presented at the X International Workshop on Deep Inelastic Scattering (DIS2002), Cracow, 30 April - 4 May 2002. Similar to the Epiphany Conference contribution

Published

2002

13. Diffractive Higgs boson production at the Tevatron and LHC

Author

Enberg, R., Ingelman, G., Kissavos, A., and Timneanu, N.

Subjects

High Energy Physics - Phenomenology

Abstract

Improved possibilities to find the Higgs boson in diffractive events, having less hadronic activity, depend on whether the cross section is large enough. Based on the soft color interaction models that successfully describe diffractive hard scattering at HERA and the Tevatron, we find that only a few diffractive Higgs events may be produced at the Tevatron, but we predict a substantial rate at the LHC., Comment: 4 pages, 4 figures, uses Revtex4

Published

2002

14. Soft Colour Interactions and Diffractive Hard Scattering at the Tevatron

Author

Timneanu, N., Enberg, R., and Ingelman, G.

Subjects

High Energy Physics - Phenomenology

Abstract

We make a brief presentation of the soft colour interactions models, the Soft Colour Interaction and the Generalised Area Law, and summarise the results when they are applied to p-pbar scattering. The models give a good description of the Tevatron data on production of W, bottom and jets in diffractive events, as well as jets with two rapidity gaps, alternatively leading particles. We also give predictions for diffractive J/psi production and discuss diffractive Higgs production at the Tevatron and LHC., Comment: 5 pages, 4 figures, uses JHEP style. Talk presented at the International Europhysics Conference on High Energy Physics (EPS HEP 2001), Budapest, 12-18 July 2001

Published

2001

15. Saturation model for two-photon interactions at high energies

Author

Timneanu, N., Kwiecinski, J., and Motyka, L.

Subjects

High Energy Physics - Phenomenology

Abstract

We formulate and analyse a saturation model for the total gamma gamma and gamma* gamma* cross-sections and for the real photon structure function F_2^gamma(x,Q^2). The model is based on a picture in which the gamma* gamma* total cross-section for arbitrary photon virtualities is driven by the interaction of colour dipoles, into which the virtual photons fluctuate. The cross-section describing this interaction is assumed to satisfy the saturation property with the saturation radius taken from the Golec-Biernat and Wusthoff analysis of the gamma* p interaction at HERA. The model is supplemented by the QPM and non-pomeron reggeon contributions. The model gives a very good description of the data on the gamma gamma total cross-section, on the photon structure function F_2^gamma(x,Q^2) at low x and on the gamma* gamma* cross-section extracted from LEP double tagged events. Production of heavy flavours in gamma gamma collisions is also studied. Predictions of the model for the very high energy range which will be probed at future linear colliders are given., Comment: 26 pages, 26 figures

Published

2001

16. Soft Color Interactions and Diffractive Hard Scattering at the Fermilab Tevatron

Author

Enberg, R., Ingelman, G., and Timneanu, N.

Subjects

High Energy Physics - Phenomenology

Abstract

An improved understanding of nonperturbative QCD can be obtained by the recently developed soft color interaction models. Their essence is the variation of color string-field topologies, giving a unified description of final states in high energy interactions, e.g., diffractive and nondiffractive events in ep and ppbar. Here we present a detailed study of such models (the soft color interaction model and the generalized area law model) applied to ppbar, considering also the general problem of the underlying event including beam particle remnants. With models tuned to HERA ep data, we find a good description also of Tevatron data on production of W, beauty and jets in diffractive events defined either by leading antiprotons or by one or two rapidity gaps in the forward or backward regions. We also give predictions for diffractive J/psi production where the soft exchange mechanism produces both a gap and a color singlet ccbar state in the same event. This soft color interaction approach is also compared with Pomeron-based models for diffraction, and some possibilities to experimentally discriminate between these different approaches are discussed., Comment: 35 pages, 15 figures, uses REVTeX. Minor changes, version to appear in Phys. Rev. D

Published

2001

17. Soft remnant interactions and rapidity gaps

Author

Timneanu, N. and Ingelman, G.

Subjects

High Energy Physics - Phenomenology

Abstract

Soft colour exchange models give a unified description of both diffractive and non-diffractive events, such that e-p and p-pbar collider data with and without rapidity gaps are well reproduced. We show that these models also describe the new Tevatron data on diffraction based on observed leading antiprotons, which provide new information on how to treat the beam particle remnant in the Monte Carlo model., Comment: Contribution to the DIS2000 workshop proceedings. 3 pages, 2 eps figures, uses sprocl.sty

Published

2000

18. Rapidity gaps at HERA and the Tevatron from soft colour exchanges

Author

Enberg, R., Ingelman, G., and Timneanu, N.

Subjects

High Energy Physics - Phenomenology

Abstract

Models based on soft colour exchanges to rearrange colour strings in the final state provide a general framework for both diffractive and non-diffractive events in ep and hadron-hadron collisions. We study two such models and find that they can reproduce rapidity gap data from both HERA and the Tevatron. We also discuss the influence of parton cascades and multiple interactions on the results., Comment: 4 pages, 4 EPS figures, presented at UK Phenomenology Workshop on Collider Physics, Durham. Uses iopart.cls

Published

2000

19. Atomic-Scale Visualization of Inertial Dynamics

Author

Lindenberg, A. M., Larsson, J., Sokolowski-Tinten, K., Gaffney, K. J., Blome, C., Synnergren, O., Sheppard, J., Caleman, C., MacPhee, A. G., Weinstein, D., Lowney, D. P., Allison, T. K., Matthews, T., Falcone, R. W., Cavalieri, A. L., Fritz, D. M., Lee, S. H., Bucksbaum, P. H., Reis, D. A., Rudati, J., Fuoss, P. H., Kao, C. C., Siddons, D. P., Pahl, R., Als-Nielsen, J., Duesterer, S., Ischebeck, R., Schlarb, H., Schulte-Schrepping, H., Schneider, J., von der Linde, D., Hignette, O., Sette, F., Chapman, H. N., Lee, R. W., Hansen, T. N., Techert, S., Wark, J. S., Bergh, M., Huldt, G., van der Spoel, D., Timneanu, N., Hajdu, J., Akre, R. A., Bong, E., Krejcik, P., Arthur, J., Brennan, S., Luening, K., and Hastings, J. B.

Published

2005

20. Rapidity Gaps from Colour String Topologies

Author

Ingelman, G., Edin, A., Enberg, R., Rathsman, J., and Timneanu, N.

Subjects

High Energy Physics - Phenomenology

Abstract

Diffractive deep inelastic scattering at HERA and diffractive W and jet production at the Tevatron are well described by soft colour exchange models. Their essence is the variation of colour string-field topologies giving both gap and no-gap events, with a smooth transition and thereby a unified description of all final states., Comment: 3 pages, 6 eps figures, contribution to the DIS 99 workshop proceedings, uses npb.sty

Published

1999

21. Soft Colour Interactions in Non-perturbative QCD

Author

Ingelman, G., Edin, A., Enberg, R., Rathsman, J., and Timneanu, N.

Subjects

High Energy Physics - Phenomenology

Abstract

Improved understanding of non-perturbative QCD dynamics can be obtained in terms of soft colour exchange models. Their essence is the variation of colour string-field topologies giving a unified description of final states in high energy interactions. In particular, both events with and without large rapidity gaps are obtained in agreement with data from ep at HERA and ppbar at the Tevatron, where also the surprisingly large production rate of high-p_T charmonium and bottomonium is reproduced., Comment: 4 pages, contribution to PANIC 99 conference proceedings, to appear in Nucl. Phys. A. Uses espcrc1.sty

Published

1999

22. Femtosecond diffractive imaging with a soft-X-ray free-electron laser

Author

Chapman, HN, Barty, A, Bogan, MJ, Boutet, S, Frank, M, Hau-Riege, SP, Marchesini, S, Woods, BW, Bajt, S, Benner, WH, London, RA, Plönjes, E, Kuhlmann, M, Treusch, R, Düsterer, S, Tschentscher, T, Schneider, JR, Spiller, E, Möller, T, Bostedt, C, Hoener, M, Shapiro, DA, Hodgson, KO, Van Der Spoel, D, Burmeister, F, Bergh, M, Caleman, C, Huldt, G, Seibert, MM, Maia, FRNC, Lee, RW, Szöke, A, Timneanu, N, and Hajdu, J

Subjects

physics.optics, Biomedical Imaging, Fluids & Plasmas, Mathematical Sciences, Physical Sciences

Abstract

Theory predicts that, with an ultrashort and extremely bright coherent X-ray pulse, a single diffraction pattern may be recorded from a large macromolecule, a virus or a cell before the sample explodes and turns into a plasma. Here we report the first experimental demonstration of this principle using the FLASH soft-X-ray free-electron laser. An intense 25 fs, 4×10 13 W cm -2 pulse, containing 10 12 photons at 32 nm wavelength, produced a coherent diffraction pattern from a nanostructured non-periodic object, before destroying it at 60,000 K. A novel X-ray camera assured single-photon detection sensitivity by filtering out parasitic scattering and plasma radiation. The reconstructed image, obtained directly from the coherent pattern by phase retrieval through oversampling, shows no measurable damage, and is reconstructed at the diffraction-limited resolution. A three-dimensional data set may be assembled from such images when copies of a reproducible sample are exposed to the beam one by one. © 2006 Nature Publishing Group.

Published

2006

23. TOF-OFF: A method for determining focal positions in tightly focused free-electron laser experiments by measurement of ejected ions

Author

Iwan, B., Andreasson, J., Andrejczuk, A., Abreu, E., Bergh, M., Caleman, C., Nelson, A.J., Bajt, S., Chalupsky, J., Chapman, H.N., Fäustlin, R.R., Hajkova, V., Heimann, P.A., Hjörvarsson, B., Juha, L., Klinger, D., Krzywinski, J., Nagler, B., Pálsson, G.K., Singer, W., Seibert, M.M., Sobierajski, R., Toleikis, S., Tschentscher, T., Vinko, S.M., Lee, R.W., Hajdu, J., and Tîmneanu, N.

Published

2011

24. Ultrafast dynamics and scattering of protic ionic liquids induced by XFEL pulses

Author

Patra, KK, Dawod, IE, Martin, A, Greaves, TL, Persson, D, Caleman, C, Timneanu, N, Patra, KK, Dawod, IE, Martin, A, Greaves, TL, Persson, D, Caleman, C, and Timneanu, N

Abstract

X-rays are routinely used for structural studies through scattering, and femtosecond X-ray lasers can probe ultrafast dynamics. We aim to capture the femtosecond dynamics of liquid samples using simulations and deconstruct the interplay of ionization and atomic motion within the X-ray laser pulse. This deconstruction is resolution dependent, as ionization influences the low momentum transfers through changes in scattering form factors, while atomic motion has a greater effect at high momentum transfers through loss of coherence. Our methodology uses a combination of classical molecular dynamics and plasma simulation on a protic ionic liquid to quantify the contributions to the scattering signal and how these evolve with time during the X-ray laser pulse. Our method is relevant for studies of organic liquids, biomolecules in solution or any low-Z materials at liquid densities that quickly turn into a plasma while probed with X-rays.

Published

2021

25. Structural Heterogeneity in Single Particle Imaging Using X-ray Lasers

Author

Mandl, T, Ostlin, C, Dawod, IE, Brodmerkel, MN, Marklund, EG, Martin, A, Timneanu, N, Caleman, C, Mandl, T, Ostlin, C, Dawod, IE, Brodmerkel, MN, Marklund, EG, Martin, A, Timneanu, N, and Caleman, C

Abstract

One of the challenges facing single particle imaging with ultrafast X-ray pulses is the structural heterogeneity of the sample to be imaged. For the method to succeed with weakly scattering samples, the diffracted images from a large number of individual proteins need to be averaged. The more the individual proteins differ in structure, the lower the achievable resolution in the final reconstructed image. We use molecular dynamics to simulate two globular proteins in vacuum, fully desolvated as well as with two different solvation layers, at various temperatures. We calculate the diffraction patterns based on the simulations and evaluate the noise in the averaged patterns arising from the structural differences and the surrounding water. Our simulations show that the presence of a minimal water coverage with an average 3 Å thickness will stabilize the protein, reducing the noise associated with structural heterogeneity, whereas additional water will generate more background noise.

Published

2020

26. Is radiation damage the limiting factor in high-resolution single particle imaging with X-ray free-electron lasers?

Author

Ostlin, C, Timneanu, N, Caleman, C, Martin, AV, Ostlin, C, Timneanu, N, Caleman, C, and Martin, AV

Abstract

The prospect of single particle imaging with atomic resolution is one of the scientific drivers for the development of X-ray free-electron lasers. The assumption since the beginning has been that damage to the sample caused by intense X-ray pulses is one of the limiting factors for achieving subnanometer X-ray imaging of single particles and that X-ray pulses need to be as short as possible. Based on the molecular dynamics simulations of proteins in X-ray fields of various durations (5 fs, 25 fs, and 50 fs), we show that the noise in the diffracted signal caused by radiation damage is less than what can be expected from other sources, such as sample inhomogeneity and X-ray shot-to-shot variations. These findings show a different aspect of the feasibility of high-resolution single particle imaging using free-electron lasers, where employing X-ray pulses of longer durations could still provide a useful diffraction signal above the noise due to the Coulomb explosion.

Published

2019

27. Is radiation damage the limiting factor in high-resolution single particle imaging with X-ray free-electron lasers?

Author

Östlin, C., primary, Timneanu, N., additional, Caleman, C., additional, and Martin, A. V., additional

Published

2019

28. Considerations for three-dimensional image reconstruction from experimental data in coherent diffractive imaging

Author

Lundholm, IV, Sellberg, JA, Ekeberg, T, Hantke, MF, Okamoto, K, van der Schot, G, Andreasson, J, Barty, A, Bielecki, J, Bruza, P, Bucher, M, Carron, S, Daurer, BJ, Ferguson, K, Hasse, D, Krzywinski, J, Larsson, DSD, Morgan, A, Muhlig, K, Mueller, M, Nettelblad, C, Pietrini, A, Reddy, HKN, Rupp, D, Sauppe, M, Seibert, M, Svenda, M, Swiggers, M, Timneanu, N, Ulmer, A, Westphal, D, Williams, G, Zani, A, Faigel, G, Chapman, HN, Moeller, T, Bostedt, C, Hajdu, J, Gorkhover, T, Maia, FRNC, Lundholm, IV, Sellberg, JA, Ekeberg, T, Hantke, MF, Okamoto, K, van der Schot, G, Andreasson, J, Barty, A, Bielecki, J, Bruza, P, Bucher, M, Carron, S, Daurer, BJ, Ferguson, K, Hasse, D, Krzywinski, J, Larsson, DSD, Morgan, A, Muhlig, K, Mueller, M, Nettelblad, C, Pietrini, A, Reddy, HKN, Rupp, D, Sauppe, M, Seibert, M, Svenda, M, Swiggers, M, Timneanu, N, Ulmer, A, Westphal, D, Williams, G, Zani, A, Faigel, G, Chapman, HN, Moeller, T, Bostedt, C, Hajdu, J, Gorkhover, T, and Maia, FRNC

Abstract

Diffraction before destruction using X-ray free-electron lasers (XFELs) has the potential to determine radiation-damage-free structures without the need for crystallization. This article presents the three-dimensional reconstruction of the Melbournevirus from single-particle X-ray diffraction patterns collected at the LINAC Coherent Light Source (LCLS) as well as reconstructions from simulated data exploring the consequences of different kinds of experimental sources of noise. The reconstruction from experimental data suffers from a strong artifact in the center of the particle. This could be reproduced with simulated data by adding experimental background to the diffraction patterns. In those simulations, the relative density of the artifact increases linearly with background strength. This suggests that the artifact originates from the Fourier transform of the relatively flat background, concentrating all power in a central feature of limited extent. We support these findings by significantly reducing the artifact through background removal before the phase-retrieval step. Large amounts of blurring in the diffraction patterns were also found to introduce diffuse artifacts, which could easily be mistaken as biologically relevant features. Other sources of noise such as sample heterogeneity and variation of pulse energy did not significantly degrade the quality of the reconstructions. Larger data volumes, made possible by the recent inauguration of high repetition-rate XFELs, allow for increased signal-to-background ratio and provide a way to minimize these artifacts. The anticipated development of three-dimensional Fourier-volume-assembly algorithms which are background aware is an alternative and complementary solution, which maximizes the use of data.

Published

2018

29. Soft colour interactions in non-perturbative QCD

Author

Ingelman, G., Edin, A., Enberg, R., Rathsman, J., and Timneanu, N.

Published

2000

30. A data set from flash X-ray imaging of carboxysomes

Author

Hantke, MF, Hasse, D, Ekeberg, T, John, K, Svenda, M, Loh, D, Martin, AV, Timneanu, N, Larsson, DSD, van der Schot, G, Carlsson, GH, Ingelman, M, Andreasson, J, Westphal, D, Iwan, B, Uetrecht, C, Bielecki, J, Liang, M, Stellato, F, DePonte, DP, Bari, S, Hartmann, R, Kimmel, N, Kirian, RA, Seibert, MM, Muhlig, K, Schorb, S, Ferguson, K, Bostedt, C, Carron, S, Bozek, JD, Rolles, D, Rudenko, A, Foucar, L, Epp, SW, Chapman, HN, Barty, A, Andersson, I, Hajdu, J, Maia, FRNC, Hantke, MF, Hasse, D, Ekeberg, T, John, K, Svenda, M, Loh, D, Martin, AV, Timneanu, N, Larsson, DSD, van der Schot, G, Carlsson, GH, Ingelman, M, Andreasson, J, Westphal, D, Iwan, B, Uetrecht, C, Bielecki, J, Liang, M, Stellato, F, DePonte, DP, Bari, S, Hartmann, R, Kimmel, N, Kirian, RA, Seibert, MM, Muhlig, K, Schorb, S, Ferguson, K, Bostedt, C, Carron, S, Bozek, JD, Rolles, D, Rudenko, A, Foucar, L, Epp, SW, Chapman, HN, Barty, A, Andersson, I, Hajdu, J, and Maia, FRNC

Abstract

Ultra-intense femtosecond X-ray pulses from X-ray lasers permit structural studies on single particles and biomolecules without crystals. We present a large data set on inherently heterogeneous, polyhedral carboxysome particles. Carboxysomes are cell organelles that vary in size and facilitate up to 40% of Earth's carbon fixation by cyanobacteria and certain proteobacteria. Variation in size hinders crystallization. Carboxysomes appear icosahedral in the electron microscope. A protein shell encapsulates a large number of Rubisco molecules in paracrystalline arrays inside the organelle. We used carboxysomes with a mean diameter of 115±26 nm from Halothiobacillus neapolitanus. A new aerosol sample-injector allowed us to record 70,000 low-noise diffraction patterns in 12 min. Every diffraction pattern is a unique structure measurement and high-throughput imaging allows sampling the space of structural variability. The different structures can be separated and phased directly from the diffraction data and open a way for accurate, high-throughput studies on structures and structural heterogeneity in biology and elsewhere.

Published

2016

31. Open data set of live cyanobacterial cells imaged using an X-ray laser

Author

van der Schot, G, Svenda, M, Maia, FRNC, Hantke, MF, DePonte, DP, Seibert, MM, Aquila, A, Schulz, J, Kirian, RA, Liang, M, Stellato, F, Bari, S, Iwan, B, Andreasson, J, Timneanu, N, Bielecki, J, Westphal, D, de Almeida, FN, Odic, D, Hasse, D, Carlsson, GH, Larsson, DSD, Barty, A, Martin, AV, Schorb, S, Bostedt, C, Bozek, JD, Carron, S, Ferguson, K, Rolles, D, Rudenko, A, Epp, SW, Foucar, L, Rudek, B, Erk, B, Hartmann, R, Kimmel, N, Holl, P, Englert, L, Loh, ND, Chapman, HN, Andersson, I, Hajdu, J, Ekeberg, T, van der Schot, G, Svenda, M, Maia, FRNC, Hantke, MF, DePonte, DP, Seibert, MM, Aquila, A, Schulz, J, Kirian, RA, Liang, M, Stellato, F, Bari, S, Iwan, B, Andreasson, J, Timneanu, N, Bielecki, J, Westphal, D, de Almeida, FN, Odic, D, Hasse, D, Carlsson, GH, Larsson, DSD, Barty, A, Martin, AV, Schorb, S, Bostedt, C, Bozek, JD, Carron, S, Ferguson, K, Rolles, D, Rudenko, A, Epp, SW, Foucar, L, Rudek, B, Erk, B, Hartmann, R, Kimmel, N, Holl, P, Englert, L, Loh, ND, Chapman, HN, Andersson, I, Hajdu, J, and Ekeberg, T

Abstract

Structural studies on living cells by conventional methods are limited to low resolution because radiation damage kills cells long before the necessary dose for high resolution can be delivered. X-ray free-electron lasers circumvent this problem by outrunning key damage processes with an ultra-short and extremely bright coherent X-ray pulse. Diffraction-before-destruction experiments provide high-resolution data from cells that are alive when the femtosecond X-ray pulse traverses the sample. This paper presents two data sets from micron-sized cyanobacteria obtained at the Linac Coherent Light Source, containing a total of 199,000 diffraction patterns. Utilizing this type of diffraction data will require the development of new analysis methods and algorithms for studying structure and structural variability in large populations of cells and to create abstract models. Such studies will allow us to understand living cells and populations of cells in new ways. New X-ray lasers, like the European XFEL, will produce billions of pulses per day, and could open new areas in structural sciences.

Published

2016

32. Single-molecule imaging with longer X-ray laser pulses

Author

Martin, AV, Corso, JK, Caleman, C, Timneanu, N, Quiney, HM, Martin, AV, Corso, JK, Caleman, C, Timneanu, N, and Quiney, HM

Abstract

During the last five years, serial femtosecond crystallography using X-ray laser pulses has been developed into a powerful technique for determining the atomic structures of protein molecules from micrometre- and sub-micrometre-sized crystals. One of the key reasons for this success is the 'self-gating' pulse effect, whereby the X-ray laser pulses do not need to outrun all radiation damage processes. Instead, X-ray-induced damage terminates the Bragg diffraction prior to the pulse completing its passage through the sample, as if the Bragg diffraction were generated by a shorter pulse of equal intensity. As a result, serial femtosecond crystallography does not need to be performed with pulses as short as 5-10 fs, but can succeed for pulses 50-100 fs in duration. It is shown here that a similar gating effect applies to single-molecule diffraction with respect to spatially uncorrelated damage processes like ionization and ion diffusion. The effect is clearly seen in calculations of the diffraction contrast, by calculating the diffraction of the average structure separately to the diffraction from statistical fluctuations of the structure due to damage ('damage noise'). The results suggest that sub-nanometre single-molecule imaging with 30-50 fs pulses, like those produced at currently operating facilities, should not yet be ruled out. The theory presented opens up new experimental avenues to measure the impact of damage on single-particle diffraction, which is needed to test damage models and to identify optimal imaging conditions.

Published

2015

33. Imaging single cells in a beam of live cyanobacteria with an X-ray laser

Author

van der Schot, G, Svenda, M, Maia, FRNC, Hantke, M, DePonte, DP, Seibert, MM, Aquila, A, Schulz, J, Kirian, R, Liang, M, Stellato, F, Iwan, B, Andreasson, J, Timneanu, N, Westphal, D, Almeida, FN, Odic, D, Hasse, D, Carlsson, GH, Larsson, DSD, Barty, A, Martin, AV, Schorb, S, Bostedt, C, Bozek, JD, Rolles, D, Rudenko, A, Epp, S, Foucar, L, Rudek, B, Hartmann, R, Kimmel, N, Holl, P, Englert, L, Loh, N-TD, Chapman, HN, Andersson, I, Hajdu, J, Ekeberg, T, van der Schot, G, Svenda, M, Maia, FRNC, Hantke, M, DePonte, DP, Seibert, MM, Aquila, A, Schulz, J, Kirian, R, Liang, M, Stellato, F, Iwan, B, Andreasson, J, Timneanu, N, Westphal, D, Almeida, FN, Odic, D, Hasse, D, Carlsson, GH, Larsson, DSD, Barty, A, Martin, AV, Schorb, S, Bostedt, C, Bozek, JD, Rolles, D, Rudenko, A, Epp, S, Foucar, L, Rudek, B, Hartmann, R, Kimmel, N, Holl, P, Englert, L, Loh, N-TD, Chapman, HN, Andersson, I, Hajdu, J, and Ekeberg, T

Abstract

There exists a conspicuous gap of knowledge about the organization of life at mesoscopic levels. Ultra-fast coherent diffractive imaging with X-ray free-electron lasers can probe structures at the relevant length scales and may reach sub-nanometer resolution on micron-sized living cells. Here we show that we can introduce a beam of aerosolised cyanobacteria into the focus of the Linac Coherent Light Source and record diffraction patterns from individual living cells at very low noise levels and at high hit ratios. We obtain two-dimensional projection images directly from the diffraction patterns, and present the results as synthetic X-ray Nomarski images calculated from the complex-valued reconstructions. We further demonstrate that it is possible to record diffraction data to nanometer resolution on live cells with X-ray lasers. Extension to sub-nanometer resolution is within reach, although improvements in pulse parameters and X-ray area detectors will be necessary to unlock this potential.

Published

2015

34. Native inhibition of Trypanosoma brucei cathepsin B revealed by an X-ray laser at 2.1 \u01fa resolution

Author

Redecke L, Nass K, DePonte DP, White TA, Rehders D, Barty A, Stellato F, Liang M, Barends TRM, Boutet S, Williams GJ, Messerschmidt M, Seibert MM, Aquila A, Arnlund D, Bajt S, Barth T, Bogan MJ, Caleman C, Chao T, Doak RB, Fleckenstein H, Frank M, Fromme R, Galli L, Grotjohann I, Hunter MS, Johansson LC, Kassemeyer S, Katona G, Kirian R, Koopmann R, Kupitz C, Lomb L, Martin AV, Mogk S, Neutze R, Shoeman RL, Steinbrener J, Timneanu N, Wang D, Weierstall U, Zatsepin NA, Spence JCH, Fromme P, and Schlichting I

Published

2013

35. High-Resolution Protein Structure Determination by Serial Femtosecond Crystallography

Author

Boutet S, Lomb L, Williams GJ, Barends TRM, Aquila A, Doak RB, Weierstall U, DePonte DP, Steinbrener J, Shoeman RL, Messerschmidt M, Barty A, White TA, Kassemeyer S, Kirian RA, Seibert MM, Montanez PA, Kenney C, Herbst R, Hart P, Pines J, Haller G, Gruner SM, Philipp HT, Tate MW, Hromalik M, Koerner LJ, van Bakel N, Morse J, Ghonsalves W, Arnlund D, Bogan MJ, Caleman C, Fromme R, Hampton CY, Hunter MS, Johansson LC, Katona G, Kupitz C, Liang MN, Martin AV, Nass K, Redecke L, Stellato F, Timneanu N, and Wang DJ

Published

2012

36. Self-terminating diffraction gates femtosecond X-ray nanocrystallography measurements

Author

Barty, A, Caleman, C, Aquila, A, Timneanu, N, Lomb, L, White, TA, Andreasson, J, Arnlund, D, Bajt, S, Barends, TRM, Barthelmess, M, Bogan, MJ, Bostedt, C, Bozek, JD, Coffee, R, Coppola, N, Davidsson, J, DePonte, DP, Doak, RB, Ekeberg, T, Elser, V, Epp, SW, Erk, B, Fleckenstein, H, Foucar, L, Fromme, P, Graafsma, H, Gumprecht, L, Hajdu, J, Hampton, CY, Hartmann, R, Hartmann, A, Hauser, G, Hirsemann, H, Holl, P, Hunter, MS, Johansson, L, Kassemeyer, S, Kimmel, N, and Kirian

Published

2012

37. TOF-OFF: A method for determining focal positions in tightly focused free-electron laser beams by measuring ion energies off a surface

Author

Iwan, B, Andreasson, J, Andrejczuk, A, Abreu, E, Bergh, M, Caleman, C, Nelson, A. J, Bajt, S, Chalupsky, J, Chapman, H. N, Fxe4ustlin, R. R, Hajkova, V, Heimann, P. A, Hjxf6rvarsson, B, Juha, L, Klinger, D, Krzywinski, J, Nagler, B, Palsson, G. K, Singer, W, Seibert, M. M, Sobierajski, R, Toleikis, S, Tschentscher, T, Vinko, S. M, Lee, R. W, and Hajdu, J, Timneanu, N

Published

2011

38. Crystal Structure of Gadolinium derivative of HEWL solved using Free-Electron Laser radiation

Author

Galli, L., primary, Barends, T.R.M., additional, Son, S.-K., additional, White, T.A., additional, Barty, A., additional, Botha, S., additional, Boutet, S., additional, Caleman, C., additional, Doak, R.B., additional, Nanao, M.H., additional, Nass, K., additional, Shoeman, R.L., additional, Timneanu, N., additional, Santra, R., additional, Schlichting, I., additional, and Chapman, H.N., additional

Published

2015

39. Crystal Structure of Gadolinium derivative of HEWL solved using intense Free-Electron Laser radiation

Author

Galli, L., primary, Barends, T.R.M., additional, Son, S.-K., additional, White, T.A., additional, Barty, A., additional, Botha, S., additional, Boutet, S., additional, Caleman, C., additional, Doak, R.B., additional, Nanao, M.H., additional, Nass, K., additional, Shoeman, R.L., additional, Timneanu, N., additional, Santra, R., additional, Schlichting, I., additional, and Chapman, H.N., additional

Published

2015

40. On the feasibility of nanocrystal imaging using intense and ultrashort 1.5 �� X-ray pulses

Author

Caleman, C., Huldt, G., Maia, F. R. N. C., Ortiz, C., Parak, F. G., Hajdu, J., van der Spoel, D., Chapman, H. N., and Timneanu, N.

Subjects

Biological Physics (physics.bio-ph), FOS: Physical sciences, Computational Physics (physics.comp-ph)

Abstract

Structural studies of biological macromolecules are severely limited by radiation damage. Traditional crystallography curbs the effects of damage by spreading damage over many copies of the molecule of interest. X-ray lasers, such as the recently built LINAC Coherent Light Source (LCLS), offer an additional opportunity for limiting damage by out-running damage processes with ultrashort and very intense X-ray pulses. Such pulses may allow the imaging of single molecules, clusters or nanoparticles, but coherent flash imaging will also open up new avenues for structural studies on nano- and micro-crystalline substances. This paper addresses the theoretical potentials and limitations of nanocrystallography with extremely intense coherent X-ray pulses. We use urea nanocrystals as a model for generic biological substances and simulate primary and secondary ionization dynamics in the crystalline sample. Our results establish conditions for ultrafast nanocrystallography diffraction experiments as a function of fluence and pulse duration., 6 pages, 4 color figures

Published

2010

41. Optical emission spectroscopy of various materials irradiated by soft x-ray free-electron laser

Author

Cihelka, J, Juha, L, Chalupský, J, Rosmej, FB, Renner, O, Saksl, K, Hájková, V, Vyšín, L, Galtier, E, Schott, R, Khorsand, AR, Riley, D, Dzelzainis, T, Nelson, AJ, Lee, RW, Heimann, PA, Nagler, B, Vinko, S, Wark, J, Whitcher, T, Toleikis, S, Tschentscher, T, Fäustlin, R, Wabnitz, H, Bajt, S, Chapman, H, Krzywinski, J, Sobierajski, R, Klinger, D, Jurek, M, Pelka, J, Hau-Riege, S, London, RA, Kuba, J, Stojanovic, N, Sokolowski-Tinten, K, Gleeson, AJ, Störmer, M, Andreasson, J, Hajdu, J, Iwan, B, and Timneanu, N

Subjects

Materials science, Spectrometer, law, Analytical chemistry, Irradiation, Excitation temperature, Emission spectrum, Laser, Luminescence, Spectral line, Ion, law.invention

Abstract

The beam of the Free-Electron Laser in Hamburg (FLASH) was focused by a grazing incidence elliptical mirror (32.5 nm and 13.5 nm) and an off-axis parabolic mirror coated with a Si/Mo multilayer (13.5 nm) to 20-micron and 1-micron spot, respectively. The grazing incidence and normal incidence focusing of ∼25-fs pulses with an energy of 10 μJ resulted in an irradiance of 10 13 W/cm 2 and 10 16 W/cm 2 , respectively, at the surface of various solids (Si, Al, Ti, Ta, Si 3 N 4 , BN, a-C/Si, Ni/Si, Cr/Si, Rh/Si, Ce:YAC, poly(methyl methacrylate) ― PMMA, stainless steel, etc.). The optical emission of the plasmas produced under these conditions was registered by a grating (1200 lines/mm and/or 150 lines/mm) spectrometer MS257 (Oriel) equipped with iCCD head (iStar 720, Andor). Surprisingly, only lines belonging to the neutral atoms were observed at intensities around 10 13 W/cm 2 . No spectral lines of ions have been identified in UV-vis spectra emitted from the plasmas formed by the FLASH beam focused in a 20-micron spot. At intensities around 10 16 W/cm 2 , the OE spectra are again dominated by the atomic lines. However, a weak emission of Al + and Al 2+ was registered as well. The abundance ratio of Al/Al + should be at least 100. The plasma has an excitation temperature equivalent to 0.8 eV found by a computer simulation of the aluminum plasma OE spectrum. A broadband emission was also registered, both from the single-element plasmas (typical is for carbon; there were no spectral lines) and the scintillating slabs (on Ce:YAG crystal, both the luminescence bands and the line plasma emission were recorded by the spectrometer).

Published

2009

42. Observation of Structural Anisotropy and the Onset of Liquidlike Motion During the Nonthermal Melting of InSb. Physical Review Letter

Author

Gaffney, K., Lindenberg, A., Larsson, J., Sokolowski-Tinten, K., Blome, C., Synnergren, O., Sheppard, J., Caleman, C., MacPhee, A., Weinstein, D., Lowney, D., Allison, T., Matthews, T., Falcone, R., Cavalieri, A., Fritz, D., Lee, S., Bucksbaum, P., Reis, D., Rudati, J., Macrander, A., Fuoss, P., Kao, C., Siddons, D., Pahl, R., Moffat, K., Als-Nielsen, J., Düsterer, S., Ischebeck, R., Schlarb, H., Schulte-Schrepping, H., Schneider, J., von der Linde, D., Hignette, O., Sette, F., Chapman, H., Lee, R., Hansen, T., Wark, J., Bergh, M., Huldt, G., van der Spoel, D., Timneanu, N., Hajdu, J., Akre, R., Bong, E., Krejcik, P., Arthur, J., Brennan, S., Luening, K., and Hastings, J.

Subjects

ddc:550

Published

2005

43. Soft color interactions and diffractive hard scattering at the Tevatron

Author

Enberg, R., Ingelman, G., and Timneanu, N.

Subjects

J/psi(3100), gap [rapidity], 1800 GeV-cms [630], Feynman graph, hard scattering [diffraction], spectrum [transverse energy], bibliography, hadroproduction [W], interaction [anti-p p], Batavia TEVATRON Coll [interpretation of experiments], bottom, nonperturbative [quantum chromodynamics], leading particle [anti-p], rapidity spectrum, hadroproduction [jet], High Energy Physics::Experiment, ddc:530, interaction [color], numerical calculations, hadronization [string model]

Abstract

An improved understanding of nonperturbative QCD can be obtained by the recently developed soft color interaction models. Their essence is the variation of color string-field topologies, giving a unified description of final states in high energy interactions, e.g., diffractive and nondiffractive events in ep and ppbar. Here we present a detailed study of such models (the soft color interaction model and the generalized area law model) applied to ppbar, considering also the general problem of the underlying event including beam particle remnants. With models tuned to HERA ep data, we find a good description also of Tevatron data on production of W, beauty and jets in diffractive events defined either by leading antiprotons or by one or two rapidity gaps in the forward or backward regions. We also give predictions for diffractive J/psi production where the soft exchange mechanism produces both a gap and a color singlet ccbar state in the same event. This soft color interaction approach is also compared with Pomeron-based models for diffraction, and some possibilities to experimentally discriminate between these different approaches are discussed.

Published

2001

44. Time-resolved protein nanocrystallography using an X-ray free-electron laser

Author

Aquila, A, Hunter, MS, Doak, RB, Kirian, RA, Fromme, P, White, TA, Andreasson, J, Arnlund, D, Bajt, S, Barends, TRM, Barthelmess, M, Bogan, MJ, Bostedt, C, Bottin, H, Bozek, JD, Caleman, C, Coppola, N, Davidsson, J, DePonte, DP, Elser, V, Epp, SW, Erk, B, Fleckenstein, H, Foucar, L, Frank, M, Fromme, R, Graafsma, H, Grotjohann, I, Gumprecht, L, Hajdu, J, Hampton, CY, Hartmann, A, Hartmann, R, Hauriege, S, Hauser, G, Hirsemann, H, Holl, P, Holton, JM, Hoemke, A, Johansson, L, Kimmel, N, Kassemeyer, S, Krasniqi, F, Kuehnel, K, Liang, M, Lomb, L, Malmerberg, E, Marchesini, S, Martin, AV, Maia, FRNC, Messerschmidt, M, Nass, K, Reich, C, Neutze, R, Rolles, D, Rudek, B, Rudenko, A, Schlichting, I, Schmidt, C, Schmidt, KE, Schulz, J, Seibert, MM, Shoeman, RL, Sierra, R, Soltau, H, Starodub, D, Stellato, F, Stern, S, Strueder, L, Timneanu, N, Ullrich, J, Wang, X, Williams, GJ, Weidenspointner, G, Weierstall, U, Wunderer, C, Barty, A, Spence, JCH, Chapman, HN, Aquila, A, Hunter, MS, Doak, RB, Kirian, RA, Fromme, P, White, TA, Andreasson, J, Arnlund, D, Bajt, S, Barends, TRM, Barthelmess, M, Bogan, MJ, Bostedt, C, Bottin, H, Bozek, JD, Caleman, C, Coppola, N, Davidsson, J, DePonte, DP, Elser, V, Epp, SW, Erk, B, Fleckenstein, H, Foucar, L, Frank, M, Fromme, R, Graafsma, H, Grotjohann, I, Gumprecht, L, Hajdu, J, Hampton, CY, Hartmann, A, Hartmann, R, Hauriege, S, Hauser, G, Hirsemann, H, Holl, P, Holton, JM, Hoemke, A, Johansson, L, Kimmel, N, Kassemeyer, S, Krasniqi, F, Kuehnel, K, Liang, M, Lomb, L, Malmerberg, E, Marchesini, S, Martin, AV, Maia, FRNC, Messerschmidt, M, Nass, K, Reich, C, Neutze, R, Rolles, D, Rudek, B, Rudenko, A, Schlichting, I, Schmidt, C, Schmidt, KE, Schulz, J, Seibert, MM, Shoeman, RL, Sierra, R, Soltau, H, Starodub, D, Stellato, F, Stern, S, Strueder, L, Timneanu, N, Ullrich, J, Wang, X, Williams, GJ, Weidenspointner, G, Weierstall, U, Wunderer, C, Barty, A, Spence, JCH, and Chapman, HN

Abstract

We demonstrate the use of an X-ray free electron laser synchronized with an optical pump laser to obtain X-ray diffraction snapshots from the photoactivated states of large membrane protein complexes in the form of nanocrystals flowing in a liquid jet. Light-induced changes of Photosystem I-Ferredoxin co-crystals were observed at time delays of 5 to 10 µs after excitation. The result correlates with the microsecond kinetics of electron transfer from Photosystem I to ferredoxin. The undocking process that follows the electron transfer leads to large rearrangements in the crystals that will terminally lead to the disintegration of the crystals. We describe the experimental setup and obtain the first time-resolved femtosecond serial X-ray crystallography results from an irreversible photo-chemical reaction at the Linac Coherent Light Source. This technique opens the door to time-resolved structural studies of reaction dynamics in biological systems.

Published

2012

45. X-ray laser-induced ablation of lead compounds

Author

Hajkova, V., Juha, L., Bohacek, P., Burian, T., Chalupsky, J., Vysin, L., Gaudin, J., Heimann, P. A., Hau-Riege, S. P., Jurek, M., Klinger, D., Pelka, J., Sobierajski, R., Krzywinski, J., Messerschmidt, M., Moeller, S. P., Nagler, B., Rowen, M., Schlotter, W. F., Swiggers, M. L., Turner, J. J., Vinko, S. M., Whitcher, T., Wark, J., Matuchova, M., Bajt, S., Chapman, H., Dzelzainis, T., Riley, D., Andreasson, J., Hajdu, J., Iwan, B., Timneanu, N., Saksl, K., Faeustlin, R., Singer, A., Tiedtke, K., Toleikis, S., Vartaniants, I., Wabnitz, H., Hajkova, V., Juha, L., Bohacek, P., Burian, T., Chalupsky, J., Vysin, L., Gaudin, J., Heimann, P. A., Hau-Riege, S. P., Jurek, M., Klinger, D., Pelka, J., Sobierajski, R., Krzywinski, J., Messerschmidt, M., Moeller, S. P., Nagler, B., Rowen, M., Schlotter, W. F., Swiggers, M. L., Turner, J. J., Vinko, S. M., Whitcher, T., Wark, J., Matuchova, M., Bajt, S., Chapman, H., Dzelzainis, T., Riley, D., Andreasson, J., Hajdu, J., Iwan, B., Timneanu, N., Saksl, K., Faeustlin, R., Singer, A., Tiedtke, K., Toleikis, S., Vartaniants, I., and Wabnitz, H.

Abstract

The recent commissioning of a X-ray free-electron laser triggered an extensive research in the area of X-ray ablation of high-Z, high-density materials. Such compounds should be used to shorten an effective attenuation length for obtaining clean ablation imprints required for the focused beam analysis. Compounds of lead (Z=82) represent the materials of first choice. In this contribution, single-shot ablation thresholds are reported for PbWO(4) and PbI(2) exposed to ultra-short pulses of extreme ultraviolet radiation and X-rays at FLASH and LCLS facilities, respectively. Interestingly, the threshold reaches only 0.11 J/cm(2) at 1.55 nm in lead tungstate although a value of 0.4 J/cm(2) is expected according to the wavelength dependence of an attenuation length and the threshold value determined in the XUV spectral region, i.e., 79 mJ/cm(2) at a FEL wavelength of 13.5 nm. Mechanisms of ablation processes are discussed to explain this discrepancy. Lead iodide shows at 1.55 nm significantly lower ablation threshold than tungstate although an attenuation length of the radiation is in both materials quite the same. Lower thermal and radiation stability of PbI(2) is responsible for this finding., Conference on Damage to VUV, EUV, and X-ray Optics III, Prague, CZECH REPUBLIC, APR 18-20, 2011

Published

2011

46. Modeling of soft X-ray induced ablation in solids

Author

Iwan, B., Andreasson, J., Abreu, E., Bergh, M., Caleman, Carl, Hajdu, J., Timneanu, N., Iwan, B., Andreasson, J., Abreu, E., Bergh, M., Caleman, Carl, Hajdu, J., and Timneanu, N.

Abstract

Powerful free electron lasers (FELs) operating in the soft X-ray regime are offering new possibilities for creating and probing materials under extreme conditions. We describe here simulations to model the interaction of a focused FEL pulse with metallic solids (niobium, vanadium, and their deuterides) at 13.5 nm wavelength (92 eV) with peak intensities between 10(15) to 10(18) W/cm(2) and a fixed pulse length of 15 femtoseconds (full width at half maximum). The interaction of the pulse with the metallic solids was modeled with a non-local thermodynamic equilibrium code that included radiation transfer. The calculations also made use of a self-similar isothermal fluid model for plasma expansion into vacuum. We find that the time-evolution of the simulated critical charge density in the sample results in a critical depth that approaches the observed crater depths in an earlier experiment performed at the FLASH free electron laser in Hamburg. The results show saturation in the ablation process at intensities exceeding 10(16) W/cm(2). Furthermore, protons and deuterons with kinetic energies of several keV have been measured, and these concur with predictions from the plasma expansion model. The results indicate that the temperature of the plasma reached almost 5 million K after the pulse has passed., Conference on Damage to VUV, EUV, and X-ray Optics III, Prague, CZECH REPUBLIC, APR 18-20, 2011

Published

2011

47. Wavelength dependence of the damage threshold of inorganic materials under extreme-ultraviolet free-electron-laser irradiation

Author

Hau-Riege, S. P., London, R. A., Bionta, R. M., Ryutov, D., Soufli, R., Bajt, S., McKernan, M. A., Baker, S. L., Krzywinski, J., Sobierajski, R., Nietubyc, R., Klinger, D., Pelka, J. B., Jurek, M., Juha, L., Chalupsky, J., Cihelka, J., Hajkova, V., Velyhan, A., Krasa, J., Tiedtke, K., Toleikis, S., Wabnitz, H., Bergh, M., Caleman, C., Timneanu, N., Hau-Riege, S. P., London, R. A., Bionta, R. M., Ryutov, D., Soufli, R., Bajt, S., McKernan, M. A., Baker, S. L., Krzywinski, J., Sobierajski, R., Nietubyc, R., Klinger, D., Pelka, J. B., Jurek, M., Juha, L., Chalupsky, J., Cihelka, J., Hajkova, V., Velyhan, A., Krasa, J., Tiedtke, K., Toleikis, S., Wabnitz, H., Bergh, M., Caleman, C., and Timneanu, N.

Abstract

We exposed bulk SiC and films of SiC and B4C to single 25 fs long free-electron-laser pulses with wavelengths between 13.5 and 32 nm. The materials are candidates for x-ray free-electron laser optics. We found that the threshold for surface-damage of the bulk SiC samples exceeds the fluence required for thermal melting at all wavelengths. The damage threshold of the film sample shows a strong wavelength dependence. For wavelengths of 13.5 and 21.7 nm, the damage threshold is equal to or exceeds the melting threshold, whereas at 32 nm the damage threshold falls below the melting threshold.

Published

2009

48. Trypanosoma brucei procathepsin B solved from 40 fs free-electron laser pulse data by serial femtosecond X-ray crystallography

Author

Redecke, L., primary, Nass, K., additional, DePonte, D.P., additional, White, T.A., additional, Rehders, D., additional, Barty, A., additional, Stellato, F., additional, Liang, M., additional, Barends, T.R.M., additional, Boutet, S., additional, Williams, G.W., additional, Messerschmidt, M., additional, Seibert, M.M., additional, Aquila, A., additional, Arnlund, D., additional, Bajt, S., additional, Barth, T., additional, Bogan, M.J., additional, Caleman, C., additional, Chao, T.-C., additional, Doak, R.B., additional, Fleckenstein, H., additional, Frank, M., additional, Fromme, R., additional, Galli, L., additional, Grotjohann, I., additional, Hunter, M.S., additional, Johansson, L.C., additional, Kassemeyer, S., additional, Katona, G., additional, Kirian, R.A., additional, Koopmann, R., additional, Kupitz, C., additional, Lomb, L., additional, Martin, A.V., additional, Mogk, S., additional, Neutze, R., additional, Shoemann, R.L., additional, Steinbrener, J., additional, Timneanu, N., additional, Wang, D., additional, Weierstall, U., additional, Zatsepin, N.A., additional, Spence, J.C.H., additional, Fromme, P., additional, Schlichting, I., additional, Duszenko, M., additional, Betzel, C., additional, and Chapman, H., additional

Published

2012

49. Observation of structural anisotropy and the onset of liquidlike motion during the nonthermal melting of InSb.

Author

Gaffney, K J, Lindenberg, A M, Larsson, J, Sokolowski-Tinten, K, Blome, C, Synnergren, O, Sheppard, J, Caleman, C, MacPhee, A G, Weinstein, D, Lowney, D P, Allison, T, Matthews, T, Falcone, R W, Cavalieri, A L, Fritz, D M, Lee, S H, Bucksbaum, P H, Reis, D A, Rudati, J, Macrander, A T, Fuoss, P H, Kao, C C, Siddons, D P, Pahl, R, Moffat, K, Als-Nielsen, J, Duesterer, S, Ischebeck, R, Schlarb, H, Schulte-Schrepping, H, Schneider, J, von der Linde, D, Hignette, O, Sette, F, Chapman, H N, Lee, R W, Hansen, T N, Wark, J S, Bergh, M, Huldt, G, van der Spoel, D, Timneanu, N, Hajdu, J, Akre, R A, Bong, E, Krejcik, P, Arthur, J, Brennan, S, Luening, K, Hastings, J B, Gaffney, K J, Lindenberg, A M, Larsson, J, Sokolowski-Tinten, K, Blome, C, Synnergren, O, Sheppard, J, Caleman, C, MacPhee, A G, Weinstein, D, Lowney, D P, Allison, T, Matthews, T, Falcone, R W, Cavalieri, A L, Fritz, D M, Lee, S H, Bucksbaum, P H, Reis, D A, Rudati, J, Macrander, A T, Fuoss, P H, Kao, C C, Siddons, D P, Pahl, R, Moffat, K, Als-Nielsen, J, Duesterer, S, Ischebeck, R, Schlarb, H, Schulte-Schrepping, H, Schneider, J, von der Linde, D, Hignette, O, Sette, F, Chapman, H N, Lee, R W, Hansen, T N, Wark, J S, Bergh, M, Huldt, G, van der Spoel, D, Timneanu, N, Hajdu, J, Akre, R A, Bong, E, Krejcik, P, Arthur, J, Brennan, S, Luening, K, and Hastings, J B

Published

2005

50. Clocking femtosecond X rays.

Author

Cavalieri, A L, Fritz, D M, Lee, S H, Bucksbaum, P H, Reis, D A, Rudati, J, Mills, D M, Fuoss, P H, Stephenson, G B, Kao, C C, Siddons, D P, Lowney, D P, Macphee, A G, Weinstein, D, Falcone, R W, Pahl, R, Als-Nielsen, J, Blome, C, Düsterer, S, Ischebeck, R, Schlarb, H, Schulte-Schrepping, H, Tschentscher, Th, Schneider, J, Hignette, O, Sette, F, Sokolowski-Tinten, K, Chapman, H N, Lee, R W, Hansen, T N, Synnergren, O, Larsson, J, Techert, S, Sheppard, J, Wark, J S, Bergh, M, Caleman, C, Huldt, G, van der Spoel, D, Timneanu, N, Hajdu, J, Akre, R A, Bong, E, Emma, P, Krejcik, P, Arthur, J, Brennan, S, Gaffney, K J, Lindenberg, A M, Luening, K, Hastings, J B, Cavalieri, A L, Fritz, D M, Lee, S H, Bucksbaum, P H, Reis, D A, Rudati, J, Mills, D M, Fuoss, P H, Stephenson, G B, Kao, C C, Siddons, D P, Lowney, D P, Macphee, A G, Weinstein, D, Falcone, R W, Pahl, R, Als-Nielsen, J, Blome, C, Düsterer, S, Ischebeck, R, Schlarb, H, Schulte-Schrepping, H, Tschentscher, Th, Schneider, J, Hignette, O, Sette, F, Sokolowski-Tinten, K, Chapman, H N, Lee, R W, Hansen, T N, Synnergren, O, Larsson, J, Techert, S, Sheppard, J, Wark, J S, Bergh, M, Caleman, C, Huldt, G, van der Spoel, D, Timneanu, N, Hajdu, J, Akre, R A, Bong, E, Emma, P, Krejcik, P, Arthur, J, Brennan, S, Gaffney, K J, Lindenberg, A M, Luening, K, and Hastings, J B

Abstract

Linear-accelerator-based sources will revolutionize ultrafast x-ray science due to their unprecedented brightness and short pulse duration. However, time-resolved studies at the resolution of the x-ray pulse duration are hampered by the inability to precisely synchronize an external laser to the accelerator. At the Sub-Picosecond Pulse Source at the Stanford Linear-Accelerator Center we solved this problem by measuring the arrival time of each high energy electron bunch with electro-optic sampling. This measurement indirectly determined the arrival time of each x-ray pulse relative to an external pump laser pulse with a time resolution of better than 60 fs rms.

Published

2005