Collection of Recent Papers
1. Matter Wave Interference
2024
Hellner, Simen K., et al. "Testing the validity of supersonic molecular beam modeling in the high-throughput range using an Even-Lavie valve." Physical Review A 109.3 (2024): 032813.
Gao, Peng, and Jie Liu. "Quantum scattering treatment on the time-domain diffraction of a matter-wave soliton." Physical Review A 109.1 (2024): 013323.
Eldar, Maor, et al. "Self-trapping of slow electrons in the energy domain." Physical Review Letters 132.3 (2024): 035001.
Fragolino, Paolo, et al. "Decoherence of a matter-wave interferometer due to dipole-dipole interactions." Physical Review A 109.3 (2024): 033301.
Kim, Leeyeong, et al. "Diffractive mirrors for neutral-atom matter-wave optics." Faraday Discussions (2024).
Herbst, Alexander, et al. "High-flux source system for matter-wave interferometry exploiting tunable interactions." Physical Review Research 6.1 (2024): 013139.
Asenbaum, Peter, Chris Overstreet, and Mark A. Kasevich. "Matter waves and clocks do not observe uniform gravitational fields." Physica Scripta (2024).
Asadpour, Seyyed Hossein, et al. "Spatial characterization of Fraunhofer diffraction in a four-level light-matter-coupling system." Physical Review A 109.2 (2024): 023702.
Wardak, Jakub, et al. "Nanoparticle Interferometer by Throw and Catch." Atoms 12.2 (2024): 7.
Desmarchelier, Paul, et al. "Phonon diffraction and interference using nanometric features." Journal of Applied Physics 135.1 (2024).
Luo, Bill J., et al. "Young's double-slit interference demonstration with single photons." American Journal of Physics 92.4 (2024): 308-316.
2023
Hong, Ling, Yuanyuan Chen, and Lixiang Chen. "Delayed-choice quantum erasure with nonlocal temporal double-slit interference." New Journal of Physics 25.5 (2023): 053014.
Morimoto, Yuya. "Attosecond electron-beam technology: a review of recent progress." Microscopy 72.1 (2023): 2-17.
Abend, Sven, et al. "Technology roadmap for cold-atoms based quantum inertial sensor in space." AVS Quantum Science 5.1 (2023).
Namdar, Peter, et al. "Experimental higher-order interference in a nonlinear triple slit." Physical Review A 107.3 (2023): 032211.
Lellouch, Samuel, Kai Bongs, and Michael Holynski. "Using atom interferometry to measure gravity." Contemporary Physics 63.2 (2022): 138-155.
Elsen, Michael, et al. "A dual-species atom interferometer payload for operation on sounding rockets." Microgravity Science and Technology 35.5 (2023): 48.
Tsarev, Maxim, Johannes W. Thurner, and Peter Baum. "Nonlinear-optical quantum control of free-electron matter waves." Nature Physics 19.9 (2023): 1350-1354.
Vinelli, Giuseppe, et al. "A large-momentum-transfer matter-wave interferometer to measure the effect of gravity on positronium." Classical and Quantum Gravity 40.20 (2023): 205024.
Tirole, Romain, et al. "Double-slit time diffraction at optical frequencies." Nature Physics 19.7 (2023): 999-1002.
Xiong, Wei, et al. "Quantized reflection of a soliton by a vibrating atomic mirror." Physical Review A 108.2 (2023): 023303.
Flatabø, Ranveig, et al. "Reflection imaging with a helium zone plate microscope." arXiv preprint arXiv:2308.11749 (2023).
Kirsten-Siemß, J-N., et al. "Large-Momentum-Transfer Atom Interferometers with μ rad-Accuracy Using Bragg Diffraction." Physical Review Letters 131.3 (2023): 033602.
Yang, Yukun, et al. "Effect of atom diffusion on the efficiency of Bragg diffraction in atom interferometers." Optics Express 31.26 (2023): 43462-43476.
Jin, Mingke, et al. "A centimeter-scale dielectric metasurface for the generation of cold atoms." Nano Letters 23.9 (2023): 4008-4013.
2022
Akbari, Kamran, Valerio Di Giulio, and F. Javier García de Abajo. "Optical manipulation of matter waves." Science Advances 8.42 (2022): eabq2659.
Albers, Henning, et al. "All-optical matter-wave lens using time-averaged potentials." Communications Physics 5.1 (2022): 60.
Kiałka, Filip, et al. "A roadmap for universal high-mass matter-wave interferometry." AVS Quantum Science 4.2 (2022).
Fein, Yaakov Y., et al. "Nanoscale magnetism probed in a matter-wave interferometer." Physical Review Letters 129.12 (2022): 123001.
Johnson, Cameron W., et al. "Inelastic Mach-Zehnder interferometry with free electrons." Physical Review Letters 128.14 (2022): 147401.
2021
Brand, Christian, et al. "Single-, double-, and triple-slit diffraction of molecular matter waves." American Journal of Physics 89.12 (2021): 1132-1138.
Rozema, Lee A., et al. "Higher-order interference between multiple quantum particles interacting nonlinearly." Physical Review A 103.5 (2021): 052204.
Gebbe, Martina, et al. "Twin-lattice atom interferometry." Nature Communications 12.1 (2021): 2544.
Frye, Kai, et al. "The Bose-Einstein condensate and cold atom laboratory." EPJ Quantum Technology 8.1 (2021): 1.
Lachmann, Maike D., et al. "Ultracold atom interferometry in space." Nature Communications 12.1 (2021): 1317.
2016 - 2020
Reinhardt, Ori, and Ido Kaminer. "Theory of shaping electron wavepackets with light." ACS Photonics 7.10 (2020): 2859-2870.
Könne, Max, et al. "Impact of dispersion forces on matter-wave scattering near a dielectric disk." Physical Review A 96.1 (2017): 013626.
Santra, Bodhaditya, et al. "Measuring finite-range phase coherence in an optical lattice using Talbot interferometry." Nature Communications 8.1 (2017): 15601.
2011 - 2015
Arndt, Markus, et al. "Focus on modern frontiers of matter wave optics and interferometry." New Journal of Physics 14.12 (2012): 125006.
Juffmann, Thomas, Hendrik Ulbricht, and Markus Arndt. "Experimental methods of molecular matter-wave optics." Reports on Progress in Physics 76.8 (2013): 086402. (Review paper)
Hornberger, Klaus, et al. "Colloquium: Quantum interference of clusters and molecules." Reviews of Modern Physics 84.1 (2012): 157. (Review paper)
2006 - 2010
Cronin, Alexander D., Jörg Schmiedmayer, and David E. Pritchard. "Optics and interferometry with atoms and molecules." Reviews of Modern Physics 81.3 (2009): 1051. (Review paper)
Bongs, Kai, and Klaus Sengstock. "Physics with coherent matter waves." Reports on Progress in Physics 67.6 (2004): 907. (Review paper)
Batelaan, Herman. "Colloquium: Illuminating the Kapitza-Dirac effect with electron matter optics." Reviews of Modern Physics 79.3 (2007): 929. (Review paper)
2001 - 2005
Miffre, Alain, et al. "The three-grating Mach–Zehnder optical interferometer: a tutorial approach using particle optics." European journal of physics 23.6 (2002): 623.
Ketterle, Wolfgang. "Nobel lecture: When atoms behave as waves: Bose-Einstein condensation and the atom laser." Reviews of Modern Physics 74.4 (2002): 1131. (Nobel lecture)
2. Quantum Reflection
Comsa, George, et al. "Direct evidence for terrace bending from He beam scattering on Pt (997)." Surface Science 89.1-3 (1979).
Lenarcic-Poljanec, K., et al. "Interaction of He atoms with (111) and (100) surfaces of Cu and Ni." Surface science 251 (1991).
Chakrabarti, Sonali, and J. Chakravorty. "Theoretical study for the optimum intensity and diffraction efficiency response for echelle reflection grating in the microwave region." Optics communications 107.3-4 (1994)
Schief, Hansjörg, et al. "Monochromatization of atomic waves by nanoscopic echelette gratings." Surface science 364.3 (1996)
Hecht, T., C. Auth, and H. Winter. "Scattering of fast He-atoms from single terraces of an Al (1 1 1)-surface." Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 129.2 (1997)
Carraro, Carlo, and Milton W. Cole. "Sticking coefficient at ultralow energy: Quantum reflection." Progress in surface science 57.1 (1998).
Doak, R. B., and A. V. G. Chizmeshya. "Sufficiency conditions for quantum reflection." EPL (Europhysics Letters) 51.4 (2000).
Mody, Areez, et al. "No-sticking effect and quantum reflection in ultracold collisions." Physical Review B 64.8 (2001).
Shimizu, Fujio. "Specular reflection of very slow metastable neon atoms from a solid surface." Physical review letters 86.6 (2001).
Shimizu, Fujio, and Jun-ichi Fujita. "Giant quantum reflection of neon atoms from a ridged silicon surface." Journal of the Physical Society of Japan 71.1 (2002)
Shimizu, Fujio, and Jun-ichi Fujita. "Reflection-type hologram for atoms." Physical Review Letters 88.12 (2002).
Friedrich, Harald, Georg Jacoby, and Carlo G. Meister. "Quantum reflection by Casimir–van der Waals potential tails." Physical Review A 65.3 (2002).
Cote, R., and B. Segev. "Quantum reflection engineering: The bichromatic evanescent-wave mirror." Physical Review A 67.4 (2003).
Oberst, H., et al. "One-dimensional focusing of an atomic beam by a flat reflector." Applied Physics B 76.8 (2003).
Druzhinina, V., and M. DeKieviet. "Experimental observation of quantum reflection far from threshold." Physical Review Letters 91.19 (2003).
Pasquini, Thomas A., et al. "Quantum reflection from a solid surface at normal incidence." Physical review letters 93.22 (2004).
Friedrich, Harald, and Alexander Jurisch. "Quantum reflection times for attractive potential tails." Physical review letters 92.10 (2004).
Oberst, Hilmar, et al. "Quantum reflection of He* on silicon." Physical Review A 71.5 (2005).
Oberst, Hilmar, et al. "Fresnel diffraction mirror for an atomic wave." Physical review letters 94.1 (2005).
Voronin, A. Yu, and P. Froelich. "Quantum reflection of ultracold antihydrogen from a solid surface." Journal of Physics B: Atomic, Molecular and Optical Physics 38.18 (2005).
Kouznetsov, Dmitrii, and Hilmar Oberst. "Scattering of atomic matter waves from ridged surfaces." Physical Review A 72.1 (2005).
Kouznetsov, Dmitrii, and Hilmar Oberst. "Reflection of waves from a ridged surface and the Zeno effect." Optical Review 12.5 (2005).
Voronin, A. Yu, Piotr Froelich, and Bernard Zygelman. "Interaction of ultracold antihydrogen with a conducting wall." Physical Review A 72.6 (2005): 062903.
Pasquini, T. A., et al. "Low velocity quantum reflection of Bose-Einstein condensates." Physical review letters 97.9 (2006).
Arnecke, Florian, Harald Friedrich, and Javier Madronero. "Effective-range theory for quantum reflection amplitudes." Physical Review A 74.6 (2006).
Kouznetsov, D., et al. "Ridged atomic mirrors and atomic nanoscope." Journal of Physics B: Atomic, Molecular and Optical Physics 39.7 (2006).
Madronero, Javier, and Harald Friedrich. "Influence of realistic atom wall potentials in quantum reflection traps." Physical Review A 75.2 (2007).
Zhao, Bum Suk, et al. "Quantum reflection of helium atom beams from a microstructured grating." Physical Review A 78.1 (2008).
Bezerra, V. B., et al. "Lifshitz theory of atom-wall interaction with applications to quantum reflection." Physical Review A 78.4 (2008).
Klimchitskaya, G. L., U. Mohideen, and V. M. Mostepanenko. "Thermal Casimir–Polder force between an atom and a dielectric plate: thermodynamics and experiment." Journal of Physics A: Mathematical and Theoretical 41.43 (2008).
Jurisch, Alexander, and Jan-Michael Rost."Trapping cold atoms by quantum reflection." Physical Review A 77.4 (2008).
Le Kien, Fam, and K. Hakuta. "Position distribution of cold thermal atoms in the vicinity of a dielectric surface." Physical Review A 77.4 (2008).
Schewe, H. Christian, et al. "Focusing a helium atom beam using a quantum-reflection mirror." New Journal of Physics 11.11 (2009).
Contreras-Reyes, Ana M., et al. "Casimir-Polder interaction between an atom and a dielectric grating." Physical Review A 82.5 (2010).
Zhao, Bum Suk, et al. "Coherent reflection of He atom beams from rough surfaces at grazing incidence." Physical review letters 105.13 (2010)
Nest, M., et al. "Dynamic matter-wave pulse shaping." Physical Review A 81.4 (2010): 043632.
Zhao, Bum Suk, Gerard Meijer, and Wieland Schöllkopf. "Emerging beam resonances in atom diffraction from a reflection grating." Physical review letters 104.24 (2010)
Bender, Helmar, et al. "Direct measurement of intermediate-range Casimir-Polder potentials." Physical review letters 104.8 (2010).
Druzhinina, Viola, et al. "Thermal disequilibrium effects in quantum reflection." Physical Review A 82.3 (2010).
Zhao, Bum Suk, Gerard Meijer, and Wieland Schöllkopf. "Emerging beam effects in out-of-plane grating diffraction of He atom beams." New Journal of Physics 13.6 (2011)
Garrido, Pedro L., et al. "Paradoxical reflection in quantum mechanics." American Journal of Physics 79.12 (2011)
DeKieviet, Maarten, Ulrich D. Jentschura, and Grzegorz Łach. "Modern experiments on atom-surface casimir physics." Casimir Physics (2011).
Zhao, Bum Suk, Gerard Meijer, and Wieland Schöllkopf. "Quantum reflection of He2 several nanometers above a grating surface." Science 331.6019 (2011).
Sutter, P., et al. "A high-reflectivity, ambient-stable graphene mirror for neutral atomic and molecular beams." Applied Physics Letters 99.21 (2011).
Zhao, Bum Suk, Weiqing Zhang, and Wieland Schöllkopf. "Non-destructive quantum reflection of helium dimers and trimers from a plane ruled grating." Molecular Physics 111.12-13 (2013)
Herwerth, Benedikt, et al."Quantum reflection from an oscillating surface." Journal of Physics B: Atomic, Molecular and Optical Physics 46.14 (2013).
Dufour, Gabriel, et al. "Quantum reflection of antihydrogen from the Casimir potential above matter slabs." Physical Review A 87.1 (2013).
Wang, Gao-Ren, et al. "Quantum reflection by the Casimir–Polder potential: a three-parameter model." Journal of Physics B: Atomic, Molecular and Optical Physics 46.18 (2013).
Dufour, Gabriel, et al. "Quantum reflection of antihydrogen in the GBAR experiment." International Journal of Modern Physics: Conference Series. Vol. 30. The Authors, 2014.
Stickler, Benjamin A., Uzi Even, and Klaus Hornberger. "Quantum reflection and interference of matter waves from periodically doped surfaces." Physical Review A 91.1 (2015).
Zhang, Weiqing, et al. "Universal Diffraction of Atomic and Molecular Matter‐Waves: A Comparison of He and D2 Quantum Reflected from a Grating." ChemPhysChem 17.22 (2016).
Zhao, Bum Suk, Weiqing Zhang, and Wieland Schöllkopf. "Universal diffraction of atoms and molecules from a quantum reflection grating." Science advances 2.3 (2016)
Miret-Artes, Salvador, and Eli Pollak."Scattering of He atoms from a microstructured grating: quantum reflection probabilities and diffraction patterns." The Journal of Physical Chemistry Letters 8.5 (2017)
Galiffi, Emanuele, et al. "Two-dimensional simulation of quantum reflection."Journal of Physics B: Atomic, Molecular and Optical Physics 50.9 (2017)
Barnea, A. Ronny, et al. "Electrically controlled quantum reflection." Physical Review A 95.4 (2017).
Crépin, P-P., et al. "Quantum reflection of antihydrogen from a liquid helium film." Europhysics Letters 119.3 (2017).
Rojas-Lorenzo, G., et al. "Quantum reflection of rare-gas atoms and clusters from a grating." Physical Review A 98.6 (2018).
Abrantes, P. P., et al. "Repulsive van der Waals interaction between a quantum particle and a conducting toroid." Physical Review A 98.1 (2018).
Petersen, Jakob, Eli Pollak, and Salvador Miret-Artes. "Quantum threshold reflection is not a consequence of a region of the long-range attractive potential with rapidly varying de Broglie wavelength." Physical Review A 97.4 (2018).
Fuchs, Sebastian, Robert Bennett, and Stefan Yoshi Buhmann. "Casimir-Polder potential of a driven atom." Physical Review A 98.2 (2018).
Ruckhofer, Adrian, et al. "Helium–Surface Interaction and Electronic Corrugation of Bi2Se3 (111)." The Journal of Physical Chemistry C 123.29 (2019)
Lee, Ju Hyeon, et al. "Matter-wave diffraction from a periodic array of half planes." Physical Review Letters 122.4 (2019).
Crépin, P-P., et al. "Quantum reflection of antihydrogen from a liquid helium bulk." Hyperfine Interactions 240 (2019).
Silvestre, Marcius, et al. "Tuning quantum reflection in graphene with an external magnetic field." Physical Review A 100.3 (2019).
Rojas-Lorenzo, G., et al. "Quantum threshold reflection of He-atom beams from rough surfaces."Physical Review A 101.2 (2020).
Bai, Zhengyang, Qi Zhang, and Guoxiang Huang. "Quantum reflections of nonlocal optical solitons in a cold Rydberg atomic gas." Physical Review A 101.5 (2020).
Soley, Micheline B., Kobra N. Avanaki, and Eric J. Heller. "Reducing anomalous reflection from complex absorbing potentials: A semiclassical approach." Physical Review A 103.4 (2021).
Gao, Jian, et al. "A review on fabrication of blazed gratings." Journal of Physics D: Applied Physics 54.31 (2021)
Kim, Lee Yeong, et al. "Experimental test of Babinet's principle in matter-wave diffraction." Physical Chemistry Chemical Physics 23.13 (2021)
Abrantes, P. P., et al. "Controlling the atom-sphere interaction with an external electric field." Physical Review A 104.2 (2021).
Queiroz, Lucas, Edson CM Nogueira, and Danilo T. Alves. "Regimes of the lateral van der Waals force in the presence of dielectrics." Physical Review A 104.6 (2021).
Tamtögl, Anton, et al. "Atom-surface van der Waals potentials of topological insulators and semimetals from scattering measurements." Physical Chemistry Chemical Physics 23.13 (2021).
Abrantes, P. P., et al. "Probing topological phase transitions via quantum reflection in the graphene family materials." Physical Review B 104.7 (2021).
Alves, Danilo T., et al. "Curvature-induced repulsive effect on the lateral Casimir-Polder--van der Waals force." arXiv preprint arXiv:2207.01671 (2022).
Kim, Lee Yeong, et al. "Enhanced elastic scattering of He 2 and He 3 from solids by multiple-edge diffraction." Physical Chemistry Chemical Physics 24.36 (2022).
Moore, C., et al. "Temperature-dependent dielectric function of intrinsic silicon: Analytic models and atom-surface potentials." Physical Review B 106.4 (2022).
Amit, Gal, et al. "Countering a fundamental law of attraction with quantum wave-packet engineering." Physical Review Research 5.1 (2023).
3. Talbot effect
Bakman, Alexandra, et al. "Observation of the Talbot effect with water waves." American Journal of Physics 87.1 (2019): 38-43.
4. Other papers
Perreault, John D., et al. "Modifying atom-surface interactions with optical fields." Physical Review A 77.4 (2008): 043406.
Grisenti, R. E., et al. "Determination of atom-surface van der Waals potentials from transmission-grating diffraction intensities." Physical review letters 83.9 (1999): 1755.
Morley, J., et al. "Characterising a tunable, pulsed atomic beam using matter-wave interferometry." Journal of Physics B: Atomic, Molecular and Optical Physics 54.15 (2021): 155301.
Garcion, C., et al. "Intermediate-range Casimir-Polder interaction probed by high-order slow atom diffraction." Physical Review Letters 127.17 (2021): 170402.
Miller, D. E., et al. "High-contrast interference in a thermal cloud of atoms." Physical Review A 71.4 (2005): 043615.
Juffmann, Thomas, et al. "Real-time single-molecule imaging of quantum interference." Nature nanotechnology 7.5 (2012): 297-300.
Brand, Christian, et al. "A Green's function approach to modeling molecular diffraction in the limit of ultra‐thin gratings." Annalen der Physik 527.9-10 (2015): 580-591.
Reisinger, Thomas, and Bodil Holst. "Neutral atom and molecule focusing using a Fresnel zone plate." Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures Processing, Measurement, and Phenomena 26.6 (2008): 2374-2379.
Hemmerich, Joshua L., et al. "Impact of Casimir-Polder interaction on Poisson-spot diffraction at a dielectric sphere." Physical Review A 94.2 (2016): 023621.
Gack, Nicolas, et al. "Signature of short-range van der waals forces observed in poisson spot diffraction with indium atoms." Physical Review Letters 125.5 (2020): 050401.
Fiedler, Johannes, Wijnand Broer, and Stefan Scheel. "Reconstruction of Casimir—Polder interactions from matter-wave interference experiments." Journal of Physics B: Atomic, Molecular and Optical Physics 50.15 (2017): 155501.
Fiedler, Johannes, and Bodil Holst. "An atom passing through a hole in a dielectric membrane: impact of dispersion forces on mask-based matter-wave lithography." Journal of Physics B: Atomic, Molecular and Optical Physics 55.2 (2022): 025401.