| |
Zdybel P., Jakubczyk P., Damping of the Anderson-Bogolyubov mode in Fermi mixtures by spin and mass imbalance,
PHYSICAL REVIEW A, 100, 5, 053622-1-9, 2019 |  |
| |
Qiao Lu-Feng, Streltsov Alexander, Gao Jun, Rana Swapan, Ren Ruo-Jing, Jiao Zhi-Qiang, Hu Cheng-Qiu, Xu Xiao-Yun, Wang Ci-Yu, Tang Hao, Yang Ai-Lin, Ma Zhi-Hao, Lewenstein Maciej, Jin Xian-Min, Entanglement activation from quantum coherence and superposition,
PHYSICAL REVIEW A, 98, 052351-1-052351-10, 2018 |  |
| |
Regula Bartosz, Lami Ludovico, Streltsov Alexander, Nonasymptotic assisted distillation of quantum coherence,
PHYSICAL REVIEW A, 98, 052329-1-052329-8, 2018 | |
| |
Kowalczyk-Murynka K., Phase estimation in an atom interferometer with finite-resolution single-atom position measurements,
PHYSICAL REVIEW A, 92, 023639, 1-12, 2015 | |
| |
Streltsov Alexander, Augusiak Remigiusz, Demianowicz Maciej, Lewenstein Maciej, Progress towards a unified approach to entanglement distribution,
PHYSICAL REVIEW A, 92, 012335-1-012335-14, 2015 | |
| |
Streltsov Alexander, Kampermann Hermann, Bruß Dagmar, Limits for entanglement distribution with separable states,
PHYSICAL REVIEW A, 90, 032323-1-032323-5, 2014 | |
| |
Giampaolo S. M., Streltsov A., Roga W., Bruß D., Illuminati F., Quantifying nonclassicality: Global impact of local unitary evolutions,
PHYSICAL REVIEW A, 87, 012313-1-012313-5, 2013 | |
| |
Streltsov Alexander, Kampermann Hermann, Bruß Dagmar, Simple algorithm for computing the geometric measure of entanglement,
PHYSICAL REVIEW A, 84, 022323-1-022323-8, 2011 | |
| |
Postek E., Sadowski T., Bienias J., Simulation of impact and fragmentation of SiC skeleton,
PHYSICAL MESOMECHANICS, 24, 5, 578-587, 2021 | |
| |
Krajewski M., Liou S.C., Jurkiewicz K., Brzózka K., Chiou W.A., Kubacki J., Burian A., Glass-like structure of iron-nickel nanochains produced by magnetic-field-induced reduction reaction with sodium borohydride,
PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 1-9, 2021 | |
| |
Poma A.B., Li M.S., Theodorakis P.E., Generalization of the elastic network model for the study of large conformational changes in biomolecules,
PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 20, 17020-17028, 2018 | |
| |
Poma A.B., Chwastyk M., Cieplak M., Elastic moduli of biological fibers in a coarse-grained model: crystalline cellulose and β-amyloids,
PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 19, 28195-28206, 2017 | |
| |
Krajewski M., Brzozka K., Lin W.S., Lin H.M., Tokarczyk M., Borysiuk J., Kowalski G., Wasik D., High temperature oxidation of iron–iron oxide core–shell nanowires composed of iron nanoparticles,
PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 18, 3900-3909, 2016 | |
| |
Poma A., Monteferrante M., Bonella S., Ciccotti G., The quantum free energy barrier for hydrogen vacancy diffusion in Na3AlH6,
PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 14, 15458-15463, 2012 | |
| |
Poma A.B., Site L.D., Adaptive resolution simulation of liquid para-hydrogen: Testing the robustness of the quantum-classical adaptive coupling,
PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 13, 10510-10519, 2011 | |
