Your search keyword '"Pfeifer, Thomas"' showing total 19 results

1. High-Precision Transition Energy Measurements of Neonlike Fe XVII Ions

Author

Shah, Chintan, Togawa, Moto, Botz, Marc, Danisch, Jonas, Goes, Joschka J., Bernitt, Sonja, Maxton, Marleen, Köbnick, Kai, Buck, Jen, Seltmann, Jörn, Hoesch, Moritz, Gu, Ming Feng, Porter, F. Scott, Pfeifer, Thomas, Leutenegger, Maurice A., Cheung, Charles, Safronova, Marianna S., López-Urrutia, José R. Crespo, Shah, Chintan, Togawa, Moto, Botz, Marc, Danisch, Jonas, Goes, Joschka J., Bernitt, Sonja, Maxton, Marleen, Köbnick, Kai, Buck, Jen, Seltmann, Jörn, Hoesch, Moritz, Gu, Ming Feng, Porter, F. Scott, Pfeifer, Thomas, Leutenegger, Maurice A., Cheung, Charles, Safronova, Marianna S., and López-Urrutia, José R. Crespo

Abstract

We improve by a factor of 4-20 the energy accuracy of the strongest soft X-ray transitions of Fe XVII ions by resonantly exciting them in an electron beam ion trap with a monochromatic beam at the P04 beamline of the PETRA III synchrotron facility. By simultaneously tracking instantaneous photon-energy fluctuations with a high-resolution photoelectron spectrometer, we minimize systematic uncertainties down to 10-15 meV, or velocity-equivalent +/- ~5 km/s in their rest energies, substantially improving our knowledge of this key astrophysical ion. Our large-scale configuration-interaction computations include more than four million relativistic configurations and agree with the experiment at a level without precedent for a ten-electron system. Thereby, theoretical uncertainties for interelectronic correlations become far smaller than those of quantum electrodynamics (QED) corrections. The present QED benchmark strengthens our trust in future calculations of many other complex atomic ions of interest to astrophysics, plasma physics, and for the development of optical clocks with highly charged ions., Comment: 14 pages, 2 figures, 4 tables, resubmitted

Published

2024

2. Sympathetically cooled highly charged ions in a radio-frequency trap with superconducting magnetic shielding

Author

Schmidt, Piet O., Dijck, Elwin A., Warnecke, Christian, Wehrheim, Malte, Henninger, Ruben B., Eff, Julia, Georgiou, Kostas, Graf, Andrea, Kokh, Stepan, Kozhiparambil Sajith, Lakshmi P., Mayo, Christopher, Schäfer, Vera M., Volk, Claudia, Pfeifer, Thomas, Crespo López-Urrutia, José R., Schmidt, Piet O., Dijck, Elwin A., Warnecke, Christian, Wehrheim, Malte, Henninger, Ruben B., Eff, Julia, Georgiou, Kostas, Graf, Andrea, Kokh, Stepan, Kozhiparambil Sajith, Lakshmi P., Mayo, Christopher, Schäfer, Vera M., Volk, Claudia, Pfeifer, Thomas, and Crespo López-Urrutia, José R.

Abstract

We sympathetically cool highly charged ions (HCI) in Coulomb crystals of Doppler-cooled Be+ ions confined in a cryogenic linear Paul trap that is integrated into a fully enclosing radio-frequency resonator manufactured from superconducting niobium. By preparing a single Be+ cooling ion and a single HCI, quantum logic spectroscopy toward frequency metrology and qubit operations with a great variety of species are enabled. While cooling down the assembly through its transition temperature into the superconducting state, an applied quantization magnetic field becomes persistent, and the trap becomes shielded from subsequent external electromagnetic fluctuations. Using a magnetically sensitive hyperfine transition of Be+ as a qubit, we measure the fractional decay rate of the stored magnetic field to be at the 10−10 s−1 level. Ramsey interferometry and spin-echo measurements yield coherence times of >400 ms, demonstrating excellent passive magnetic shielding at frequencies down to DC.

Published

2023

3. Sympathetically cooled highly charged ions in a radio-frequency trap with superconducting magnetic shielding

Author

Schmidt, Piet O., Dijck, Elwin A., Warnecke, Christian, Wehrheim, Malte, Henninger, Ruben B., Eff, Julia, Georgiou, Kostas, Graf, Andrea, Kokh, Stepan, Kozhiparambil Sajith, Lakshmi P., Mayo, Christopher, Schäfer, Vera M., Volk, Claudia, Pfeifer, Thomas, Crespo López-Urrutia, José R., Schmidt, Piet O., Dijck, Elwin A., Warnecke, Christian, Wehrheim, Malte, Henninger, Ruben B., Eff, Julia, Georgiou, Kostas, Graf, Andrea, Kokh, Stepan, Kozhiparambil Sajith, Lakshmi P., Mayo, Christopher, Schäfer, Vera M., Volk, Claudia, Pfeifer, Thomas, and Crespo López-Urrutia, José R.

Abstract

We sympathetically cool highly charged ions (HCI) in Coulomb crystals of Doppler-cooled Be+ ions confined in a cryogenic linear Paul trap that is integrated into a fully enclosing radio-frequency resonator manufactured from superconducting niobium. By preparing a single Be+ cooling ion and a single HCI, quantum logic spectroscopy toward frequency metrology and qubit operations with a great variety of species are enabled. While cooling down the assembly through its transition temperature into the superconducting state, an applied quantization magnetic field becomes persistent, and the trap becomes shielded from subsequent external electromagnetic fluctuations. Using a magnetically sensitive hyperfine transition of Be+ as a qubit, we measure the fractional decay rate of the stored magnetic field to be at the 10−10 s−1 level. Ramsey interferometry and spin-echo measurements yield coherence times of >400 ms, demonstrating excellent passive magnetic shielding at frequencies down to DC.

Published

2023

4. Oscillator-strength ratio of two Fe XVII soft X-ray transitions essential for plasma diagnostics finally agrees with theory

Author

Kühn, Steffen, Cheung, Charles, Oreshkina, Natalia S., Steinbrügge, René, Togawa, Moto, Shah, Chintan, Bernitt, Sonja, Buck, Jens, Hoesch, Moritz, Seltmann, Jörn, Trinter, Florian, Keitel, Christoph H., Kozlov, Mikhail G., Porsev, Sergey G., Pfeifer, Thomas, Leutenegger, Maurice A., Harman, Zoltán, Safronova, Marianna S., López-Urrutia, José R. Crespo, Kühn, Steffen, Cheung, Charles, Oreshkina, Natalia S., Steinbrügge, René, Togawa, Moto, Shah, Chintan, Bernitt, Sonja, Buck, Jens, Hoesch, Moritz, Seltmann, Jörn, Trinter, Florian, Keitel, Christoph H., Kozlov, Mikhail G., Porsev, Sergey G., Pfeifer, Thomas, Leutenegger, Maurice A., Harman, Zoltán, Safronova, Marianna S., and López-Urrutia, José R. Crespo

Abstract

One of the most enduring and intensively studied problems of X-ray astronomy is the disagreement of state-of-the art theory and observations for the intensity ratio of two ubiquitous Fe{~\sc XVII} transitions of crucial value for plasma diagnostics, dubbed 3C and 3D. We unravel this conundrum at the PETRA~III synchrotron facility by increasing the resolving power two and a half times and the signal-to-noise ratio thousand-fold compared to previous work. Hitherto unnoted Lorentzian wings of 3C, the stronger line, had been indistinguishable from the background. The now-determined experimental oscillator-strength ratio $R= f_{\mathrm{3C}}/f_{\mathrm{3D}}=3.51\pm0.02_{\mathrm{stat}}\pm0.07_{\mathrm{sys}}$ agrees with our present prediction of $R=3.55\pm0.02$, calculated at the largest scale reported for an astrophysical ion. Measured and predicted natural linewidths also mutually agree. Further improvements would allow a test of key QED contributions in this many-electron system., Comment: Includes section Supplemental Materials

Published

2022

5. Observation of solid-state bidirectional thermal conductivity switching in antiferroelectric lead zirconate (PbZrO3).

Author

Aryana, Kiumars, Aryana, Kiumars, Tomko, John A, Gao, Ran, Hoglund, Eric R, Mimura, Takanori, Makarem, Sara, Salanova, Alejandro, Hoque, Md Shafkat Bin, Pfeifer, Thomas W, Olson, David H, Braun, Jeffrey L, Nag, Joyeeta, Read, John C, Howe, James M, Opila, Elizabeth J, Martin, Lane W, Ihlefeld, Jon F, Hopkins, Patrick E, Aryana, Kiumars, Aryana, Kiumars, Tomko, John A, Gao, Ran, Hoglund, Eric R, Mimura, Takanori, Makarem, Sara, Salanova, Alejandro, Hoque, Md Shafkat Bin, Pfeifer, Thomas W, Olson, David H, Braun, Jeffrey L, Nag, Joyeeta, Read, John C, Howe, James M, Opila, Elizabeth J, Martin, Lane W, Ihlefeld, Jon F, and Hopkins, Patrick E

Abstract

Materials with tunable thermal properties enable on-demand control of temperature and heat flow, which is an integral component in the development of solid-state refrigeration, energy scavenging, and thermal circuits. Although gap-based and liquid-based thermal switches that work on the basis of mechanical movements have been an effective approach to control the flow of heat in the devices, their complex mechanisms impose considerable costs in latency, expense, and power consumption. As a consequence, materials that have multiple solid-state phases with distinct thermal properties are appealing for thermal management due to their simplicity, fast switching, and compactness. Thus, an ideal thermal switch should operate near or above room temperature, have a simple trigger mechanism, and offer a quick and large on/off switching ratio. In this study, we experimentally demonstrate that manipulating phonon scattering rates can switch the thermal conductivity of antiferroelectric PbZrO3 bidirectionally by -10% and +25% upon applying electrical and thermal excitation, respectively. Our approach takes advantage of two separate phase transformations in PbZrO3 that alter the phonon scattering rate in different manners. In this study, we demonstrate that PbZrO3 can serve as a fast (<1 second), repeatable, simple trigger, and reliable thermal switch with a net switching ratio of nearly 38% from ~1.20 to ~1.65 W m-1 K-1.

Published

2022

6. Observation of solid-state bidirectional thermal conductivity switching in antiferroelectric lead zirconate (PbZrO3).

Author

Aryana, Kiumars, Aryana, Kiumars, Tomko, John A, Gao, Ran, Hoglund, Eric R, Mimura, Takanori, Makarem, Sara, Salanova, Alejandro, Hoque, Md Shafkat Bin, Pfeifer, Thomas W, Olson, David H, Braun, Jeffrey L, Nag, Joyeeta, Read, John C, Howe, James M, Opila, Elizabeth J, Martin, Lane W, Ihlefeld, Jon F, Hopkins, Patrick E, Aryana, Kiumars, Aryana, Kiumars, Tomko, John A, Gao, Ran, Hoglund, Eric R, Mimura, Takanori, Makarem, Sara, Salanova, Alejandro, Hoque, Md Shafkat Bin, Pfeifer, Thomas W, Olson, David H, Braun, Jeffrey L, Nag, Joyeeta, Read, John C, Howe, James M, Opila, Elizabeth J, Martin, Lane W, Ihlefeld, Jon F, and Hopkins, Patrick E

Abstract

Materials with tunable thermal properties enable on-demand control of temperature and heat flow, which is an integral component in the development of solid-state refrigeration, energy scavenging, and thermal circuits. Although gap-based and liquid-based thermal switches that work on the basis of mechanical movements have been an effective approach to control the flow of heat in the devices, their complex mechanisms impose considerable costs in latency, expense, and power consumption. As a consequence, materials that have multiple solid-state phases with distinct thermal properties are appealing for thermal management due to their simplicity, fast switching, and compactness. Thus, an ideal thermal switch should operate near or above room temperature, have a simple trigger mechanism, and offer a quick and large on/off switching ratio. In this study, we experimentally demonstrate that manipulating phonon scattering rates can switch the thermal conductivity of antiferroelectric PbZrO3 bidirectionally by -10% and +25% upon applying electrical and thermal excitation, respectively. Our approach takes advantage of two separate phase transformations in PbZrO3 that alter the phonon scattering rate in different manners. In this study, we demonstrate that PbZrO3 can serve as a fast (<1 second), repeatable, simple trigger, and reliable thermal switch with a net switching ratio of nearly 38% from ~1.20 to ~1.65 W m-1 K-1.

Published

2022

7. New Measurement Resolves Key Astrophysical Fe XVII Oscillator Strength Problem

Author

Kühn, Steffen, Cheung, Charles, Oreshkina, Natalia S., Steinbrügge, René, Togawa, Moto, Bernitt, Sonja, Berger, Lukas, Buck, Jens, Hoesch, Moritz, Seltmann, Jörn, Trinter, Florian, Keitel, Christoph H., Kozlov, Mikhail G., Porsev, Sergey G., Gu, Ming Feng, Porter, F. Scott, Pfeifer, Thomas, Leutenegger, Maurice A., Harman, Zoltán, Safronova, Marianna S., López-Urrutia, José R. Crespo, Shah, Chintan, Kühn, Steffen, Cheung, Charles, Oreshkina, Natalia S., Steinbrügge, René, Togawa, Moto, Bernitt, Sonja, Berger, Lukas, Buck, Jens, Hoesch, Moritz, Seltmann, Jörn, Trinter, Florian, Keitel, Christoph H., Kozlov, Mikhail G., Porsev, Sergey G., Gu, Ming Feng, Porter, F. Scott, Pfeifer, Thomas, Leutenegger, Maurice A., Harman, Zoltán, Safronova, Marianna S., López-Urrutia, José R. Crespo, and Shah, Chintan

Abstract

One of the most enduring and intensively studied problems of X-ray astronomy is the disagreement of state-of-the art theory and observations for the intensity ratio of two Fe XVII transitions of crucial value for plasma diagnostics, dubbed 3C and 3D. We unravel this conundrum at the PETRA III synchrotron facility by increasing the resolving power two and a half times and the signal-to-noise ratio thousand-fold compared to our previous work. The Lorentzian wings had hitherto been indistinguishable from the background and were thus not modeled, resulting in a biased line-strength estimation. The present experimental oscillator-strength ratio $R_\mathrm{exp}=f_{\mathrm{3C}}/f_{\mathrm{3D}}=3.51(2)_{\mathrm{stat}}(7)_{\mathrm{sys}}$ agrees with our state-of-the-art calculation of $R_\mathrm{th}=3.55(2)$, as well as with some previous theoretical predictions. To further rule out any uncertainties associated with the measured ratio, we also determined the individual natural linewidths and oscillator strengths of 3C and 3D transitions, which also agree well with the theory. This finally resolves the decades-old mystery of Fe XVII oscillator strengths., Comment: Main manuscript and supplemental material at https://journals.aps.org/prl/supplemental/10.1103/PhysRevLett.129.245001/LN17392_Supplemental_Material.pdf

Published

2022

8. Observation of strong two-electron--one-photon transitions in few-electron ion

Author

Togawa, Moto, Kühn, Steffen, Shah, Chintan, Amaro, Pedro, Steinbrügge, René, Stierhof, Jakob, Hell, Natalie, Rosner, Michael, Fujii, Keisuke, Bissinger, Matthias, Ballhausen, Ralf, Hoesch, Moritz, Seltmann, Jörn, Park, SungNam, Grilo, Filipe, Porter, F. Scott, Santos, José Paulo, Chung, Moses, Stöhlker, Thomas, Wilms, Jörn, Pfeifer, Thomas, Brown, Gregory V., Leutenegger, Maurice A., Bernitt, Sven, López-Urrutia, José R. Crespo, Togawa, Moto, Kühn, Steffen, Shah, Chintan, Amaro, Pedro, Steinbrügge, René, Stierhof, Jakob, Hell, Natalie, Rosner, Michael, Fujii, Keisuke, Bissinger, Matthias, Ballhausen, Ralf, Hoesch, Moritz, Seltmann, Jörn, Park, SungNam, Grilo, Filipe, Porter, F. Scott, Santos, José Paulo, Chung, Moses, Stöhlker, Thomas, Wilms, Jörn, Pfeifer, Thomas, Brown, Gregory V., Leutenegger, Maurice A., Bernitt, Sven, and López-Urrutia, José R. Crespo

Abstract

We resonantly excite the $K$ series of O$^{5+}$ and O$^{6+}$ up to principal quantum number $n=11$ with monochromatic x rays, producing $K$-shell holes, and observe their relaxation by soft-x-ray emission. Some photoabsorption resonances of O$^{5+}$ reveal strong two-electron--one-photon (TEOP) transitions. We find that for the $[(1s\,2s)_1\,5p_{3/2}]_{3/2;1/2}$ states, TEOP relaxation is by far stronger than the radiative decay and competes with the usually much faster Auger decay path. This enhanced TEOP decay arises from a strong correlation with the near-degenerate upper states $[(1s\,2p_{3/2})_1\,4s]_{3/2;1/2}$ of a Li-like satellite blend of the He-like $K\alpha$ transition. Even in three-electron systems, TEOP transitions can play a dominant role, and the present results should guide further research on the ubiquitous and abundant many-electron ions where electronic energy degeneracies are far more common and configuration mixing is stronger., Comment: Published in PRA

Published

2020

9. Imaging an isolated water molecule with an attosecond electron wave packet

Author

Universitat Politècnica de Catalunya. Doctorat en Fotònica, Liu, Xinyao, Amini, Kasra, Steinle, Tobias, Sánchez, Aurelien, Moniruzzaman, Shaikh, Belsa Carné, Blanca Maria, Steinmetzer, Johannes, Anh-Thu, Le, Moshammer, Robert, Pfeifer, Thomas, Ullrich, Joachim, Moszynski, Robert, Lin, Chii-Dong, Gräfe, Stefanie, Biegert, Jens, Universitat Politècnica de Catalunya. Doctorat en Fotònica, Liu, Xinyao, Amini, Kasra, Steinle, Tobias, Sánchez, Aurelien, Moniruzzaman, Shaikh, Belsa Carné, Blanca Maria, Steinmetzer, Johannes, Anh-Thu, Le, Moshammer, Robert, Pfeifer, Thomas, Ullrich, Joachim, Moszynski, Robert, Lin, Chii-Dong, Gräfe, Stefanie, and Biegert, Jens

Abstract

We use laser-induced electron diffraction (LIED) to self-image the molecular structure of an isolated water molecular ion using its own retuning attosecond electron wave packet (EWP). Using LIED’s sub-femtosecond and picometre spatio-temporal resolution imaging capabilities, we observe the symmetric stretching of the O-H and H-H internuclear distances with increasing laser field strength., Postprint (published version)

Published

2020

10. Observation of strong two-electron--one-photon transitions in few-electron ion

Author

Togawa, Moto, Kühn, Steffen, Shah, Chintan, Amaro, Pedro, Steinbrügge, René, Stierhof, Jakob, Hell, Natalie, Rosner, Michael, Fujii, Keisuke, Bissinger, Matthias, Ballhausen, Ralf, Hoesch, Moritz, Seltmann, Jörn, Park, SungNam, Grilo, Filipe, Porter, F. Scott, Santos, José Paulo, Chung, Moses, Stöhlker, Thomas, Wilms, Jörn, Pfeifer, Thomas, Brown, Gregory V., Leutenegger, Maurice A., Bernitt, Sven, López-Urrutia, José R. Crespo, Togawa, Moto, Kühn, Steffen, Shah, Chintan, Amaro, Pedro, Steinbrügge, René, Stierhof, Jakob, Hell, Natalie, Rosner, Michael, Fujii, Keisuke, Bissinger, Matthias, Ballhausen, Ralf, Hoesch, Moritz, Seltmann, Jörn, Park, SungNam, Grilo, Filipe, Porter, F. Scott, Santos, José Paulo, Chung, Moses, Stöhlker, Thomas, Wilms, Jörn, Pfeifer, Thomas, Brown, Gregory V., Leutenegger, Maurice A., Bernitt, Sven, and López-Urrutia, José R. Crespo

Abstract

We resonantly excite the $K$ series of O$^{5+}$ and O$^{6+}$ up to principal quantum number $n=11$ with monochromatic x rays, producing $K$-shell holes, and observe their relaxation by soft-x-ray emission. Some photoabsorption resonances of O$^{5+}$ reveal strong two-electron--one-photon (TEOP) transitions. We find that for the $[(1s\,2s)_1\,5p_{3/2}]_{3/2;1/2}$ states, TEOP relaxation is by far stronger than the radiative decay and competes with the usually much faster Auger decay path. This enhanced TEOP decay arises from a strong correlation with the near-degenerate upper states $[(1s\,2p_{3/2})_1\,4s]_{3/2;1/2}$ of a Li-like satellite blend of the He-like $K\alpha$ transition. Even in three-electron systems, TEOP transitions can play a dominant role, and the present results should guide further research on the ubiquitous and abundant many-electron ions where electronic energy degeneracies are far more common and configuration mixing is stronger., Comment: Published in PRA

Published

2020

11. Roadmap on photonic, electronic and atomic collision physics : I. Light-matter interaction

Author

Ueda, Kiyoshi, Sokell, Emma, Schippers, Stefan, Aumayr, Friedrich, Sadeghpour, Hossein, Burgdoerfer, Joachim, Lemell, Christoph, Tong, Xiao-Min, Pfeifer, Thomas, Calegari, Francesca, Palacios, Alicia, Martin, Fernando, Corkum, Paul, Sansone, Giuseppe, Gryzlova, Elena, V, Grum-Grzhimailo, Alexei N., Piancastelli, Maria Novella, Weber, Peter M., Steinle, Tobias, Amini, Kasra, Biegert, Jens, Berrah, Nora, Kukk, Edwin, Santra, Robin, Mueller, Alfred, Dowek, Danielle, Lucchese, Robert R., McCurdy, C. William, Bolognesi, Paola, Avaldi, Lorenzo, Jahnke, Till, Schoeffler, Markus S., Doerner, Reinhard, Mairesse, Yann, Nahon, Laurent, Smirnova, Olga, Schlathoelter, Thomas, Campbell, Eleanor E. B., Rost, Jan-Michael, Meyer, Michael, Tanaka, Kazuo A., Ueda, Kiyoshi, Sokell, Emma, Schippers, Stefan, Aumayr, Friedrich, Sadeghpour, Hossein, Burgdoerfer, Joachim, Lemell, Christoph, Tong, Xiao-Min, Pfeifer, Thomas, Calegari, Francesca, Palacios, Alicia, Martin, Fernando, Corkum, Paul, Sansone, Giuseppe, Gryzlova, Elena, V, Grum-Grzhimailo, Alexei N., Piancastelli, Maria Novella, Weber, Peter M., Steinle, Tobias, Amini, Kasra, Biegert, Jens, Berrah, Nora, Kukk, Edwin, Santra, Robin, Mueller, Alfred, Dowek, Danielle, Lucchese, Robert R., McCurdy, C. William, Bolognesi, Paola, Avaldi, Lorenzo, Jahnke, Till, Schoeffler, Markus S., Doerner, Reinhard, Mairesse, Yann, Nahon, Laurent, Smirnova, Olga, Schlathoelter, Thomas, Campbell, Eleanor E. B., Rost, Jan-Michael, Meyer, Michael, and Tanaka, Kazuo A.

Abstract

We publish three Roadmaps on photonic, electronic and atomic collision physics in order to celebrate the 60th anniversary of the ICPEAC conference. In Roadmap I, we focus on the light-matter interaction. In this area, studies of ultrafast electronic and molecular dynamics have been rapidly growing, with the advent of new light sources such as attosecond lasers and x-ray free electron lasers. In parallel, experiments with established synchrotron radiation sources and femtosecond lasers using cutting-edge detection schemes are revealing new scientific insights that have never been exploited. Relevant theories are also being rapidly developed. Target samples for photon-impact experiments are expanding from atoms and small molecules to complex systems such as biomolecules, fullerene, clusters and solids. This Roadmap aims to look back along the road, explaining the development of these fields, and look forward, collecting contributions from twenty leading groups from the field.

Published

2019

12. Roadmap on photonic, electronic and atomic collision physics : I. Light-matter interaction

Author

Ueda, Kiyoshi, Sokell, Emma, Schippers, Stefan, Aumayr, Friedrich, Sadeghpour, Hossein, Burgdoerfer, Joachim, Lemell, Christoph, Tong, Xiao-Min, Pfeifer, Thomas, Calegari, Francesca, Palacios, Alicia, Martin, Fernando, Corkum, Paul, Sansone, Giuseppe, Gryzlova, Elena, V, Grum-Grzhimailo, Alexei N., Piancastelli, Maria Novella, Weber, Peter M., Steinle, Tobias, Amini, Kasra, Biegert, Jens, Berrah, Nora, Kukk, Edwin, Santra, Robin, Mueller, Alfred, Dowek, Danielle, Lucchese, Robert R., McCurdy, C. William, Bolognesi, Paola, Avaldi, Lorenzo, Jahnke, Till, Schoeffler, Markus S., Doerner, Reinhard, Mairesse, Yann, Nahon, Laurent, Smirnova, Olga, Schlathoelter, Thomas, Campbell, Eleanor E. B., Rost, Jan-Michael, Meyer, Michael, Tanaka, Kazuo A., Ueda, Kiyoshi, Sokell, Emma, Schippers, Stefan, Aumayr, Friedrich, Sadeghpour, Hossein, Burgdoerfer, Joachim, Lemell, Christoph, Tong, Xiao-Min, Pfeifer, Thomas, Calegari, Francesca, Palacios, Alicia, Martin, Fernando, Corkum, Paul, Sansone, Giuseppe, Gryzlova, Elena, V, Grum-Grzhimailo, Alexei N., Piancastelli, Maria Novella, Weber, Peter M., Steinle, Tobias, Amini, Kasra, Biegert, Jens, Berrah, Nora, Kukk, Edwin, Santra, Robin, Mueller, Alfred, Dowek, Danielle, Lucchese, Robert R., McCurdy, C. William, Bolognesi, Paola, Avaldi, Lorenzo, Jahnke, Till, Schoeffler, Markus S., Doerner, Reinhard, Mairesse, Yann, Nahon, Laurent, Smirnova, Olga, Schlathoelter, Thomas, Campbell, Eleanor E. B., Rost, Jan-Michael, Meyer, Michael, and Tanaka, Kazuo A.

Abstract

We publish three Roadmaps on photonic, electronic and atomic collision physics in order to celebrate the 60th anniversary of the ICPEAC conference. In Roadmap I, we focus on the light-matter interaction. In this area, studies of ultrafast electronic and molecular dynamics have been rapidly growing, with the advent of new light sources such as attosecond lasers and x-ray free electron lasers. In parallel, experiments with established synchrotron radiation sources and femtosecond lasers using cutting-edge detection schemes are revealing new scientific insights that have never been exploited. Relevant theories are also being rapidly developed. Target samples for photon-impact experiments are expanding from atoms and small molecules to complex systems such as biomolecules, fullerene, clusters and solids. This Roadmap aims to look back along the road, explaining the development of these fields, and look forward, collecting contributions from twenty leading groups from the field.

Published

2019

13. High Resolution Photoexcitation Measurements Exacerbate the Long-Standing Fe XVII Oscillator Strength Problem

Author

Kühn, Steffen, Shah, Chintan, López-Urrutia, José R. Crespo, Fujii, Keisuke, Steinbrügge, René, Stierhof, Jakob, Togawa, Moto, Harman, Zoltán, Oreshkina, Natalia S., Cheung, Charles, Kozlov, Mikhail G., Porsev, Sergey G., Safronova, Marianna S., Berengut, Julian C., Rosner, Michael, Bissinger, Matthias, Ballhausen, Ralf, Hell, Natalie, Park, SungNam, Chung, Moses, Hoesch, Moritz, Seltmann, Jörn, Surzhykov, Andrey S., Yerokhin, Vladimir A., Wilms, Jörn, Porter, F. Scott, Stöhlker, Thomas, Keitel, Christoph H., Pfeifer, Thomas, Brown, Gregory V., Leutenegger, Maurice A., Bernitt, Sven, Kühn, Steffen, Shah, Chintan, López-Urrutia, José R. Crespo, Fujii, Keisuke, Steinbrügge, René, Stierhof, Jakob, Togawa, Moto, Harman, Zoltán, Oreshkina, Natalia S., Cheung, Charles, Kozlov, Mikhail G., Porsev, Sergey G., Safronova, Marianna S., Berengut, Julian C., Rosner, Michael, Bissinger, Matthias, Ballhausen, Ralf, Hell, Natalie, Park, SungNam, Chung, Moses, Hoesch, Moritz, Seltmann, Jörn, Surzhykov, Andrey S., Yerokhin, Vladimir A., Wilms, Jörn, Porter, F. Scott, Stöhlker, Thomas, Keitel, Christoph H., Pfeifer, Thomas, Brown, Gregory V., Leutenegger, Maurice A., and Bernitt, Sven

Abstract

For more than 40 years, most astrophysical observations and laboratory studies of two key soft x-ray diagnostic $2p-3d$ transitions, $3C$ and $3D$, in Fe XVII ions found oscillator strength ratios $f(3C)/f(3D)$ disagreeing with theory, but uncertainties had precluded definitive statements on this much studied conundrum. Here, we resonantly excite these lines using synchrotron radiation at PETRA III, and reach, at a millionfold lower photon intensities, a 10 times higher spectral resolution, and 3 times smaller uncertainty than earlier work. Our final result of $f(3C)/f(3D) = 3.09(8)(6)$ supports many of the earlier clean astrophysical and laboratory observations, while departing by five sigmas from our own newest large-scale ab initio calculations, and excluding all proposed explanations, including those invoking nonlinear effects and population transfers., Comment: Main text (6 pages, 3 figures), Supplmentary Material (8 pages, 4 figure), Published in Physical Review Letters

Published

2019

14. Revisiting the Fe XVII line emission problem: laboratory measurements of the 3s-2p and 3d-2p line-formation channels

Author

Shah, Chintan, López-Urrutia, José R. Crespo, Gu, Ming Feng, Pfeifer, Thomas, Marques, José, Grilo, Filipe, Santos, José Paulo, Amaro, Pedro, Shah, Chintan, López-Urrutia, José R. Crespo, Gu, Ming Feng, Pfeifer, Thomas, Marques, José, Grilo, Filipe, Santos, José Paulo, and Amaro, Pedro

Abstract

We determined relative X-ray photon emission cross sections in Fe XVII ions that were mono-energetically excited in an electron beam ion trap. Line formation for the 3s (3s-2p) and 3d (3d-2p) transitions of interest proceeds through dielectronic recombination (DR), direct electron-impact excitation (DE), resonant excitation (RE), and radiative cascades. By reducing the electron-energy spread to a sixth of that of previous works and increasing counting statistics by three orders of magnitude, we account for hitherto unresolved contributions from DR and the little-studied RE process to the 3d transitions, and also for cascade population of the 3s line manifold through forbidden states. We found good agreement with state-of-the-art many-body perturbation theory (MBPT) and distorted-wave (DW) method for the 3s transition, while in the 3d transitions known discrepancies were confirmed. Our results show that DW calculations overestimate the 3d line emission due to DE by ~20%. Inclusion of electron-electron correlation effects through the MBPT method in the DE cross section calculations reduces this disagreement by ~11%. The remaining ~9% in 3d and ~11% in 3s/3d discrepancies are consistent with those found in previous laboratory measurements, solar, and astrophysical observations. Meanwhile, spectral models of opacity, temperature, and turbulence velocity should be adjusted to these experimental cross sections to optimize the accuracy of plasma diagnostics based on these bright soft X-ray lines of Fe XVII., Comment: 8 pages, 4 figures, Accepted in ApJ, in press

Published

2019

15. Roadmap on photonic, electronic and atomic collision physics : I. Light-matter interaction

Author

Ueda, Kiyoshi, Sokell, Emma, Schippers, Stefan, Aumayr, Friedrich, Sadeghpour, Hossein, Burgdoerfer, Joachim, Lemell, Christoph, Tong, Xiao-Min, Pfeifer, Thomas, Calegari, Francesca, Palacios, Alicia, Martin, Fernando, Corkum, Paul, Sansone, Giuseppe, Gryzlova, Elena, V, Grum-Grzhimailo, Alexei N., Piancastelli, Maria Novella, Weber, Peter M., Steinle, Tobias, Amini, Kasra, Biegert, Jens, Berrah, Nora, Kukk, Edwin, Santra, Robin, Mueller, Alfred, Dowek, Danielle, Lucchese, Robert R., McCurdy, C. William, Bolognesi, Paola, Avaldi, Lorenzo, Jahnke, Till, Schoeffler, Markus S., Doerner, Reinhard, Mairesse, Yann, Nahon, Laurent, Smirnova, Olga, Schlathoelter, Thomas, Campbell, Eleanor E. B., Rost, Jan-Michael, Meyer, Michael, Tanaka, Kazuo A., Ueda, Kiyoshi, Sokell, Emma, Schippers, Stefan, Aumayr, Friedrich, Sadeghpour, Hossein, Burgdoerfer, Joachim, Lemell, Christoph, Tong, Xiao-Min, Pfeifer, Thomas, Calegari, Francesca, Palacios, Alicia, Martin, Fernando, Corkum, Paul, Sansone, Giuseppe, Gryzlova, Elena, V, Grum-Grzhimailo, Alexei N., Piancastelli, Maria Novella, Weber, Peter M., Steinle, Tobias, Amini, Kasra, Biegert, Jens, Berrah, Nora, Kukk, Edwin, Santra, Robin, Mueller, Alfred, Dowek, Danielle, Lucchese, Robert R., McCurdy, C. William, Bolognesi, Paola, Avaldi, Lorenzo, Jahnke, Till, Schoeffler, Markus S., Doerner, Reinhard, Mairesse, Yann, Nahon, Laurent, Smirnova, Olga, Schlathoelter, Thomas, Campbell, Eleanor E. B., Rost, Jan-Michael, Meyer, Michael, and Tanaka, Kazuo A.

Abstract

We publish three Roadmaps on photonic, electronic and atomic collision physics in order to celebrate the 60th anniversary of the ICPEAC conference. In Roadmap I, we focus on the light-matter interaction. In this area, studies of ultrafast electronic and molecular dynamics have been rapidly growing, with the advent of new light sources such as attosecond lasers and x-ray free electron lasers. In parallel, experiments with established synchrotron radiation sources and femtosecond lasers using cutting-edge detection schemes are revealing new scientific insights that have never been exploited. Relevant theories are also being rapidly developed. Target samples for photon-impact experiments are expanding from atoms and small molecules to complex systems such as biomolecules, fullerene, clusters and solids. This Roadmap aims to look back along the road, explaining the development of these fields, and look forward, collecting contributions from twenty leading groups from the field.

Published

2019

16. Roadmap on photonic, electronic and atomic collision physics : I. Light-matter interaction

Author

Ueda, Kiyoshi, Sokell, Emma, Schippers, Stefan, Aumayr, Friedrich, Sadeghpour, Hossein, Burgdoerfer, Joachim, Lemell, Christoph, Tong, Xiao-Min, Pfeifer, Thomas, Calegari, Francesca, Palacios, Alicia, Martin, Fernando, Corkum, Paul, Sansone, Giuseppe, Gryzlova, Elena, V, Grum-Grzhimailo, Alexei N., Piancastelli, Maria Novella, Weber, Peter M., Steinle, Tobias, Amini, Kasra, Biegert, Jens, Berrah, Nora, Kukk, Edwin, Santra, Robin, Mueller, Alfred, Dowek, Danielle, Lucchese, Robert R., McCurdy, C. William, Bolognesi, Paola, Avaldi, Lorenzo, Jahnke, Till, Schoeffler, Markus S., Doerner, Reinhard, Mairesse, Yann, Nahon, Laurent, Smirnova, Olga, Schlathoelter, Thomas, Campbell, Eleanor E. B., Rost, Jan-Michael, Meyer, Michael, Tanaka, Kazuo A., Ueda, Kiyoshi, Sokell, Emma, Schippers, Stefan, Aumayr, Friedrich, Sadeghpour, Hossein, Burgdoerfer, Joachim, Lemell, Christoph, Tong, Xiao-Min, Pfeifer, Thomas, Calegari, Francesca, Palacios, Alicia, Martin, Fernando, Corkum, Paul, Sansone, Giuseppe, Gryzlova, Elena, V, Grum-Grzhimailo, Alexei N., Piancastelli, Maria Novella, Weber, Peter M., Steinle, Tobias, Amini, Kasra, Biegert, Jens, Berrah, Nora, Kukk, Edwin, Santra, Robin, Mueller, Alfred, Dowek, Danielle, Lucchese, Robert R., McCurdy, C. William, Bolognesi, Paola, Avaldi, Lorenzo, Jahnke, Till, Schoeffler, Markus S., Doerner, Reinhard, Mairesse, Yann, Nahon, Laurent, Smirnova, Olga, Schlathoelter, Thomas, Campbell, Eleanor E. B., Rost, Jan-Michael, Meyer, Michael, and Tanaka, Kazuo A.

Abstract

We publish three Roadmaps on photonic, electronic and atomic collision physics in order to celebrate the 60th anniversary of the ICPEAC conference. In Roadmap I, we focus on the light-matter interaction. In this area, studies of ultrafast electronic and molecular dynamics have been rapidly growing, with the advent of new light sources such as attosecond lasers and x-ray free electron lasers. In parallel, experiments with established synchrotron radiation sources and femtosecond lasers using cutting-edge detection schemes are revealing new scientific insights that have never been exploited. Relevant theories are also being rapidly developed. Target samples for photon-impact experiments are expanding from atoms and small molecules to complex systems such as biomolecules, fullerene, clusters and solids. This Roadmap aims to look back along the road, explaining the development of these fields, and look forward, collecting contributions from twenty leading groups from the field.

Published

2019

17. Revisiting the Fe XVII line emission problem: laboratory measurements of the 3s-2p and 3d-2p line-formation channels

Author

Shah, Chintan, López-Urrutia, José R. Crespo, Gu, Ming Feng, Pfeifer, Thomas, Marques, José, Grilo, Filipe, Santos, José Paulo, Amaro, Pedro, Shah, Chintan, López-Urrutia, José R. Crespo, Gu, Ming Feng, Pfeifer, Thomas, Marques, José, Grilo, Filipe, Santos, José Paulo, and Amaro, Pedro

Abstract

We determined relative X-ray photon emission cross sections in Fe XVII ions that were mono-energetically excited in an electron beam ion trap. Line formation for the 3s (3s-2p) and 3d (3d-2p) transitions of interest proceeds through dielectronic recombination (DR), direct electron-impact excitation (DE), resonant excitation (RE), and radiative cascades. By reducing the electron-energy spread to a sixth of that of previous works and increasing counting statistics by three orders of magnitude, we account for hitherto unresolved contributions from DR and the little-studied RE process to the 3d transitions, and also for cascade population of the 3s line manifold through forbidden states. We found good agreement with state-of-the-art many-body perturbation theory (MBPT) and distorted-wave (DW) method for the 3s transition, while in the 3d transitions known discrepancies were confirmed. Our results show that DW calculations overestimate the 3d line emission due to DE by ~20%. Inclusion of electron-electron correlation effects through the MBPT method in the DE cross section calculations reduces this disagreement by ~11%. The remaining ~9% in 3d and ~11% in 3s/3d discrepancies are consistent with those found in previous laboratory measurements, solar, and astrophysical observations. Meanwhile, spectral models of opacity, temperature, and turbulence velocity should be adjusted to these experimental cross sections to optimize the accuracy of plasma diagnostics based on these bright soft X-ray lines of Fe XVII., Comment: 8 pages, 4 figures, Accepted in ApJ, in press

Published

2019

18. High Resolution Photoexcitation Measurements Exacerbate the Long-Standing Fe XVII Oscillator Strength Problem

Author

Kühn, Steffen, Shah, Chintan, López-Urrutia, José R. Crespo, Fujii, Keisuke, Steinbrügge, René, Stierhof, Jakob, Togawa, Moto, Harman, Zoltán, Oreshkina, Natalia S., Cheung, Charles, Kozlov, Mikhail G., Porsev, Sergey G., Safronova, Marianna S., Berengut, Julian C., Rosner, Michael, Bissinger, Matthias, Ballhausen, Ralf, Hell, Natalie, Park, SungNam, Chung, Moses, Hoesch, Moritz, Seltmann, Jörn, Surzhykov, Andrey S., Yerokhin, Vladimir A., Wilms, Jörn, Porter, F. Scott, Stöhlker, Thomas, Keitel, Christoph H., Pfeifer, Thomas, Brown, Gregory V., Leutenegger, Maurice A., Bernitt, Sven, Kühn, Steffen, Shah, Chintan, López-Urrutia, José R. Crespo, Fujii, Keisuke, Steinbrügge, René, Stierhof, Jakob, Togawa, Moto, Harman, Zoltán, Oreshkina, Natalia S., Cheung, Charles, Kozlov, Mikhail G., Porsev, Sergey G., Safronova, Marianna S., Berengut, Julian C., Rosner, Michael, Bissinger, Matthias, Ballhausen, Ralf, Hell, Natalie, Park, SungNam, Chung, Moses, Hoesch, Moritz, Seltmann, Jörn, Surzhykov, Andrey S., Yerokhin, Vladimir A., Wilms, Jörn, Porter, F. Scott, Stöhlker, Thomas, Keitel, Christoph H., Pfeifer, Thomas, Brown, Gregory V., Leutenegger, Maurice A., and Bernitt, Sven

Abstract

For more than 40 years, most astrophysical observations and laboratory studies of two key soft x-ray diagnostic $2p-3d$ transitions, $3C$ and $3D$, in Fe XVII ions found oscillator strength ratios $f(3C)/f(3D)$ disagreeing with theory, but uncertainties had precluded definitive statements on this much studied conundrum. Here, we resonantly excite these lines using synchrotron radiation at PETRA III, and reach, at a millionfold lower photon intensities, a 10 times higher spectral resolution, and 3 times smaller uncertainty than earlier work. Our final result of $f(3C)/f(3D) = 3.09(8)(6)$ supports many of the earlier clean astrophysical and laboratory observations, while departing by five sigmas from our own newest large-scale ab initio calculations, and excluding all proposed explanations, including those invoking nonlinear effects and population transfers., Comment: Main text (6 pages, 3 figures), Supplmentary Material (8 pages, 4 figure), Published in Physical Review Letters

Published

2019

19. Roadmap on photonic, electronic and atomic collision physics : I. Light-matter interaction

Author

Ueda, Kiyoshi, Sokell, Emma, Schippers, Stefan, Aumayr, Friedrich, Sadeghpour, Hossein, Burgdoerfer, Joachim, Lemell, Christoph, Tong, Xiao-Min, Pfeifer, Thomas, Calegari, Francesca, Palacios, Alicia, Martin, Fernando, Corkum, Paul, Sansone, Giuseppe, Gryzlova, Elena, V, Grum-Grzhimailo, Alexei N., Piancastelli, Maria Novella, Weber, Peter M., Steinle, Tobias, Amini, Kasra, Biegert, Jens, Berrah, Nora, Kukk, Edwin, Santra, Robin, Mueller, Alfred, Dowek, Danielle, Lucchese, Robert R., McCurdy, C. William, Bolognesi, Paola, Avaldi, Lorenzo, Jahnke, Till, Schoeffler, Markus S., Doerner, Reinhard, Mairesse, Yann, Nahon, Laurent, Smirnova, Olga, Schlathoelter, Thomas, Campbell, Eleanor E. B., Rost, Jan-Michael, Meyer, Michael, Tanaka, Kazuo A., Ueda, Kiyoshi, Sokell, Emma, Schippers, Stefan, Aumayr, Friedrich, Sadeghpour, Hossein, Burgdoerfer, Joachim, Lemell, Christoph, Tong, Xiao-Min, Pfeifer, Thomas, Calegari, Francesca, Palacios, Alicia, Martin, Fernando, Corkum, Paul, Sansone, Giuseppe, Gryzlova, Elena, V, Grum-Grzhimailo, Alexei N., Piancastelli, Maria Novella, Weber, Peter M., Steinle, Tobias, Amini, Kasra, Biegert, Jens, Berrah, Nora, Kukk, Edwin, Santra, Robin, Mueller, Alfred, Dowek, Danielle, Lucchese, Robert R., McCurdy, C. William, Bolognesi, Paola, Avaldi, Lorenzo, Jahnke, Till, Schoeffler, Markus S., Doerner, Reinhard, Mairesse, Yann, Nahon, Laurent, Smirnova, Olga, Schlathoelter, Thomas, Campbell, Eleanor E. B., Rost, Jan-Michael, Meyer, Michael, and Tanaka, Kazuo A.

Abstract

We publish three Roadmaps on photonic, electronic and atomic collision physics in order to celebrate the 60th anniversary of the ICPEAC conference. In Roadmap I, we focus on the light-matter interaction. In this area, studies of ultrafast electronic and molecular dynamics have been rapidly growing, with the advent of new light sources such as attosecond lasers and x-ray free electron lasers. In parallel, experiments with established synchrotron radiation sources and femtosecond lasers using cutting-edge detection schemes are revealing new scientific insights that have never been exploited. Relevant theories are also being rapidly developed. Target samples for photon-impact experiments are expanding from atoms and small molecules to complex systems such as biomolecules, fullerene, clusters and solids. This Roadmap aims to look back along the road, explaining the development of these fields, and look forward, collecting contributions from twenty leading groups from the field.

Published

2019