Your search keyword '"Wimberger, P"' showing total 1,374 results

1. Accelerated creation of NOON states with ultracold atoms via counterdiabatic driving

Author

Dengis, Simon, Wimberger, Sandro, and Schlagheck, Peter

Subjects

Condensed Matter - Quantum Gases, Quantum Physics

Abstract

A quantum control protocol is proposed for the creation of NOON states with $N$ ultracold bosonic atoms on two modes, corresponding to the coherent superposition $\vert N,0\rangle + \vert 0,N\rangle$. This state can be prepared by using a third mode where all bosons are initially placed and which is symmetrically coupled to the two other modes. Tuning the energy of this third mode across the energy level of the other modes allows the adiabatic creation of the NOON state. While this process normally takes too much time to be of practical usefulness, due to the smallness of the involved spectral gap, it can be drastically boosted through counterdiabatic driving which allows for efficient gap engineering. We demonstrate that this process can be implemented in terms of static parameter adaptations that are experimentally feasible with ultracold quantum gases. Gain factors in the required protocol speed are obtained that increase exponentially with the number of involved atoms and thus counterbalance the exponentially slow collective tunneling process underlying this adiabatic transition., Comment: 7 + 3 pages, 4 + 2 figures

Published

2024

2. Comparison of two different integration methods for the (1+1)-Dimensional Schr\'odinger-Poisson Equation

Author

Schwersenz, Nico, Loaiza, Victor, Zimmermann, Tim, Madroñero, Javier, and Wimberger, Sandro

Subjects

General Relativity and Quantum Cosmology, Condensed Matter - Quantum Gases, Physics - Computational Physics

Abstract

We compare two different numerical methods to integrate in time spatially delocalized initial densities using the Schr\"odinger-Poisson equation system as the evolution law. The basic equation is a nonlinear Schr\"odinger equation with an auto-gravitating potential created by the wave function density itself. The latter is determined as a solution of Poisson's equation modelling, e.g., non-relativistic gravity. For reasons of complexity, we treat a one-dimensional version of the problem whose numerical integration is still challenging because of the extreme long-range forces (being constant in the asymptotic limit). Both of our methods, a Strang splitting scheme and a basis function approach using B-splines, are compared in numerical convergence and effectivity. Overall, our Strang-splitting evolution compares favourably with the B-spline method. In particular, by using an adaptive time-stepper rather large one-dimensional boxes can be treated. These results give hope for extensions to two spatial dimensions for not too small boxes and large evolution times necessary for describing, for instance, dark matter formation over cosmologically relevant scales., Comment: Converged 1D solutions of Schr\"odinger-Poisson model including spatial expansion, comparison between various methods and optimisation of integrators

Published

2024

3. Maligne Transformation einer Tailgut-Zyste

Author

Schima, Wolfgang, Kaserer, Klaus, and Wimberger, Günter Michael

Published

2024

4. Ist weniger mehr? – Neue operative Therapiekonzepte beim Zervixkarzinom

Author

Schindelhauer, Axel and Wimberger, Pauline

Published

2024

5. Post-COVID-19-pandemic changes and clinical characteristics of invasive group a streptococcal infections from 2015 to 2023

Author

Tomidis Chatzimanouil, Markos K., Rößler, Susann, Nurjadi, Dennis, Iakovidis, Isidoros, Berner, Reinhard, Toepfner, Nicole, Bornstein, the Dresden G. A. S. Study Group: Stefan Richard, Aschoff, Roland, Bornhäuser, Martin, Güldner, Andreas, Gunzer, Florian, Herold, Johannes, Schultz, Jurek, Wimberger, Pauline, and Zahnert, Thomas

Published

2024

6. Spontaneous-emission induced ratchet in atom-optics kicked rotor quantum walks

Author

Bolik, Nikolai and Wimberger, Sandro

Subjects

Quantum Physics, Condensed Matter - Quantum Gases

Abstract

Quantum walks have gained significant attention over the past decades, mainly because of their variety of implementations and applications. Atomic quantum walks are typically subject to spontaneous emissions arising from the control fields. We investigate spontaneous emission in an atom optics kicked rotor quantum walk. Here, spontaneous emission occurs naturally due to the driving by the kicks, and it is generally viewed as a nuisance in the experiment. We find, however, that spontaneous emission may induce asymmetries in an otherwise symmetric quantum walk. Our results underscore the utility of spontaneous emission and the application of the asymmetric evolution in the walker's space, i.e. for the construction of a quantum walk ratchet or for Parrondo-like quantum games. This highlights the potential for reinterpreting seemingly adverse effects as beneficial under certain conditions, thus broadening the scope of quantum walks and their applications.

Published

2024

7. Quantum control by effective counterdiabatic driving

Author

Petiziol, Francesco, Mintert, Florian, and Wimberger, Sandro

Subjects

Quantum Physics, Physics - Atomic Physics

Abstract

We review a scheme for the systematic design of quantum control protocols based on shortcuts to adiabaticity in few-level quantum systems. The adiabatic dynamics is accelerated by introducing high-frequency modulations in the control Hamiltonian, which mimic a time-dependent counterdiabatic correction. We present a number of applications for the high-fidelity realization of quantum state transfers and quantum gates based on effective counterdiabatic driving, in platforms ranging from superconducting circuits to Rydberg atoms., Comment: Review on effective counterdibatic driving

Published

2024

8. Patient-Reported Outcomes in OlympiA: A Phase III, Randomized, Placebo-Controlled Trial of Adjuvant Olaparib in gBRCA1/2 Mutations and High-Risk Human Epidermal Growth Factor Receptor 2-Negative Early Breast Cancer.

Author

Ganz, Patricia, Bandos, Hanna, Španić, Tanja, Friedman, Sue, Müller, Volkmar, Kuemmel, Sherko, Delaloge, Suzette, Brain, Etienne, Toi, Masakazu, Yamauchi, Hideko, de Dueñas, Eduardo-M, Armstrong, Anne, Im, Seock-Ah, Song, Chuan-Gui, Zheng, Hong, Sarosiek, Tomasz, Sharma, Priyanka, Geng, Cuizhi, Fu, Peifen, Rhiem, Kerstin, Frauchiger-Heuer, Heike, Wimberger, Pauline, tKint de Roodenbeke, Daphné, Liao, Ning, Goodwin, Annabel, Chakiba-Brugère, Camille, Friedlander, Michael, Lee, Keun, Giacchetti, Sylvie, Takano, Toshimi, Henao-Carrasco, Fernando, Virani, Shamsuddin, Valdes-Albini, Frances, Domchek, Susan, Bane, Charles, McCarron, Edward, Mita, Monica, Rossi, Giovanna, Rastogi, Priya, Fielding, Anitra, Gelber, Richard, Scheepers, Elsemieke, Cameron, David, Garber, Judy, Geyer, Charles, and Tutt, Andrew

Subjects

Female, Humans, BRCA1 Protein, BRCA2 Protein, Breast Neoplasms, Fatigue, Mutation, Nausea, Patient Reported Outcome Measures, Phthalazines, Piperazines, Quality of Life, Receptor, ErbB-2, Vomiting

Abstract

PURPOSE: The OlympiA randomized phase III trial compared 1 year of olaparib (OL) or placebo (PL) as adjuvant therapy in patients with germline BRCA1/2, high-risk human epidermal growth factor receptor 2-negative early breast cancer after completing (neo)adjuvant chemotherapy ([N]ACT), surgery, and radiotherapy. The patient-reported outcome primary hypothesis was that OL-treated patients may experience greater fatigue during treatment. METHODS: Data were collected before random assignment, and at 6, 12, 18, and 24 months. The primary end point was fatigue, measured with the Functional Assessment of Chronic Illness Therapy-Fatigue scale. Secondary end points, assessed with the European Organization for Research and Treatment of Cancer Quality of Life Questionnaire, Core 30 item, included nausea and vomiting (NV), diarrhea, and multiple functional domains. Scores were compared between treatment groups using mixed model for repeated measures. Two-sided P values

Published

2024

9. Shortcut-to-Adiabatic Controlled-Phase Gate in Rydberg Atoms

Author

Bosch, Luis S. Yagüe, Ehret, Tim, Petiziol, Francesco, Arimondo, Ennio, and Wimberger, Sandro

Subjects

Quantum Physics, Condensed Matter - Quantum Gases, Physics - Atomic Physics

Abstract

A shortcut-to-adiabatic protocol for the realization of a fast and high-fidelity controlled-phase gate in Rydberg atoms is developed. The adiabatic state transfer, driven in the high-blockade limit, is sped up by compensating nonadiabatic transitions via oscillating fields that mimic a counterdiabatic Hamiltonian. High fidelities are obtained in wide parameter regions. The implementation of the bare effective counterdiabatic field, without original adiabatic pulses, enables to bypass gate errors produced by the accumulation of blockade-dependent dynamical phases, making the protocol efficient also at low blockade values. As an application toward quantum algorithms, how the fidelity of the gate impacts the efficiency of a minimal quantum-error correction circuit is analyzed., Comment: Cover story of Annalen der Physik, Volume 535, Issue 12

Published

2023

10. The impact of physical activity on progression-free and overall survival in metastatic breast cancer based on molecular subtype

Author

Philipp Ziegler, Andreas D. Hartkopf, Markus Wallwiener, Lothar Häberle, Hans-Christian Kolberg, Peyman Hadji, Hans Tesch, Johannes Ettl, Diana Lüftner, Volkmar Müller, Laura L. Michel, Erik Belleville, Pauline Wimberger, Carsten Hielscher, Hanna Huebner, Sabrina Uhrig, Lena A. Wurmthaler, Carolin C. Hack, Christoph Mundhenke, Christian Kurbacher, Peter A. Fasching, Rachel Wuerstlein, Michael Untch, Wolfgang Janni, Florin-Andrei Taran, Michael P. Lux, Diethelm Wallwiener, Sara Y. Brucker, Tanja N. Fehm, Andreas Schneeweiss, and Chloë Goossens

Subjects

Metastatic breast cancer, Physical activity, Molecular subtype, IPAQ, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Although adequate physical activity has been shown to be beneficial in early breast cancer, evidence in metastatic breast cancer is sparse and contradictory, which could be related to distinct effects of physical activity on the different molecular cancer subtypes. Therefore, we here evaluated the effect of physical activity on progression-free and overall survival (PFS, OS) in metastatic breast cancer, specifically looking at molecular subtypes. Methods International Physical Activity Questionnaire (IPAQ) questionnaires, filled out by patients enrolled in the prospective PRAEGNANT registry (NCT02338167; n = 1,270) were used to calculate metabolic equivalent task (MET) minutes, which were subsequently categorized into low (n = 138), moderate (n = 995) or high IPAQ categories (n = 137). Cox regression analyses were used to evaluate the impact of IPAQ categories and its interaction with molecular subtypes on PFS and OS. Results Patient and tumor characteristics were equally distributed across IPAQ categories. HER2pos, HRpos and TNBC were present in 23.1%, 65.7% and 11.2% of patients, respectively. IPAQ scores did not have an impact on PFS and OS in addition to established prognostic factors, either overall or in particular molecular subtypes (PFS: p = 0.33 and OS: p = 0.08, likelihood ratio test). Exploratory analyses showed higher overall survival rates for high IPAQ categories compared to low/moderate IPAQ categories in luminal B-like breast cancer. Conclusions Self-reported physical activity using the IPAQ questionnaire did not significantly affect PFS or OS in patients suffering from metastatic breast cancer. Nevertheless, some hypothesis-generating differences between molecular subtypes could be observed, which may be interesting to evaluate further.

Published

2024

11. The impact of physical activity on progression-free and overall survival in metastatic breast cancer based on molecular subtype

Author

Ziegler, Philipp, Hartkopf, Andreas D., Wallwiener, Markus, Häberle, Lothar, Kolberg, Hans-Christian, Hadji, Peyman, Tesch, Hans, Ettl, Johannes, Lüftner, Diana, Müller, Volkmar, Michel, Laura L., Belleville, Erik, Wimberger, Pauline, Hielscher, Carsten, Huebner, Hanna, Uhrig, Sabrina, Wurmthaler, Lena A., Hack, Carolin C., Mundhenke, Christoph, Kurbacher, Christian, Fasching, Peter A., Wuerstlein, Rachel, Untch, Michael, Janni, Wolfgang, Taran, Florin-Andrei, Lux, Michael P., Wallwiener, Diethelm, Brucker, Sara Y., Fehm, Tanja N., Schneeweiss, Andreas, and Goossens, Chloë

Published

2024

12. Induction of circulating ABCB1 transcripts under platinum-based chemotherapy indicates poor prognosis and a bone micrometastatic phenotype in ovarian cancer patients

Author

Schwarz, Franziska Maria, Kuhlmann, Jan Dominik, Kämpfer, Jorrin, Klimova, Anna, Klotz, Daniel Martin, Freitag, Lisa, Herrmann, Pia, Zinnow, Viktoria, Smith, Janice, Scheller, Theresia, Walther, Wolfgang, Wimberger, Pauline, and Stein, Ulrike

Published

2024

13. Susceptibility gene mutations in germline and tumors of patients with HER2-negative advanced breast cancer

Author

Fasching, Peter A., Hu, Chunling, Hart, Steven N., Ruebner, Matthias, Polley, Eric C., Gnanaolivu, Rohan D., Hartkopf, Andreas D., Huebner, Hanna, Janni, Wolfgang, Hadji, Peyman, Tesch, Hans, Uhrig, Sabrina, Ettl, Johannes, Lux, Michael P., Lüftner, Diana, Wallwiener, Markus, Wurmthaler, Lena A., Goossens, Chloë, Müller, Volkmar, Beckmann, Matthias W., Hein, Alexander, Anetsberger, Daniel, Belleville, Erik, Wimberger, Pauline, Untch, Michael, Ekici, Arif B., Kolberg, Hans-Christian, Hartmann, Arndt, Taran, Florin-Andrei, Fehm, Tanja N., Wallwiener, Diethelm, Brucker, Sara Y., Schneeweiss, Andreas, Häberle, Lothar, and Couch, Fergus J.

Published

2024

14. Light-driven polymer recycling to monomers and small molecules

Author

Wimberger, Laura, Ng, Gervase, and Boyer, Cyrille

Published

2024

15. The growth factor EPIREGULIN promotes basal progenitor cell proliferation in the developing neocortex

Author

Cubillos, Paula, Ditzer, Nora, Kolodziejczyk, Annika, Schwenk, Gustav, Hoffmann, Janine, Schütze, Theresa M, Derihaci, Razvan P, Birdir, Cahit, Köllner, Johannes EM, Petzold, Andreas, Sarov, Mihail, Martin, Ulrich, Long, Katherine R, Wimberger, Pauline, and Albert, Mareike

Published

2024

16. Prämenstruelles Syndrom und prämenstruelle dysphorische Störung – Übersicht zu Pathophysiologie, Diagnostik und Therapie

Author

Haußmann, Jana, Goeckenjan, M., Haußmann, R., and Wimberger, P.

Published

2024

17. Induction of circulating ABCB1 transcripts under platinum-based chemotherapy indicates poor prognosis and a bone micrometastatic phenotype in ovarian cancer patients

Author

Franziska Maria Schwarz, Jan Dominik Kuhlmann, Jorrin Kämpfer, Anna Klimova, Daniel Martin Klotz, Lisa Freitag, Pia Herrmann, Viktoria Zinnow, Janice Smith, Theresia Scheller, Wolfgang Walther, Pauline Wimberger, and Ulrike Stein

Subjects

Ovarian cancer, ABCB1, Liquid biopsy, Platinum-resistance, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract The drug efflux transporter P-glycoprotein, encoded by the ABCB1 gene, promotes acquired chemoresistance. We explored the presence and clinical relevance of circulating cell-free ABCB1 transcripts (cfABCB1tx) in ovarian cancer patients (173 longitudinal serum samples from 79 cancer patients) using digital droplet PCR. cfABCB1tx were readily detectable at primary diagnosis (median 354 mRNA copies/20 µl serum), paralleled FIGO-stage and predicted surgical outcome (p = 0.023, p=0.022, respectively). Increased cfABCB1tx levels at primary diagnosis indicated poor PFS (HR = 2.329, 95%CI:1.374–3.947, p = 0.0017) and OS (HR = 2.074, 95%CI:1.194–3.601, p = 0.0096). cfABCB1tx induction under platinum-based chemotherapy was an independent predictor for poor OS (HR = 2.597, 95%CI: 1.218–5.538, p = 0.013) and paralelled a micrometastatic phenotype, shaped by the presence of disseminated tumor cells in the bone marrow. A strong correlation was observed between cfABCB1tx and circulating transcripts of the metastasis-inducer MACC1, which is the transcriptional activator of ABCB1. Combined assessment of cfABCB1tx and circulating cell-free MACC1 transcripts (cfMACC1tx) resulted in an improved prognostic prediction, with the cfABCB1tx-high/cfMACC1tx-high phenotype bearing the highest risk for relapse and death. Conclusively, we provide proof of principle, that ABCB1 transcripts are readily traceable in the liquid-biopsy of ovarian cancer patients, advancing a new dimension for systemic monitoring of ABCB1/P-glycoprotein expression dynamics.

Published

2024

18. Susceptibility gene mutations in germline and tumors of patients with HER2-negative advanced breast cancer

Author

Peter A. Fasching, Chunling Hu, Steven N. Hart, Matthias Ruebner, Eric C. Polley, Rohan D. Gnanaolivu, Andreas D. Hartkopf, Hanna Huebner, Wolfgang Janni, Peyman Hadji, Hans Tesch, Sabrina Uhrig, Johannes Ettl, Michael P. Lux, Diana Lüftner, Markus Wallwiener, Lena A. Wurmthaler, Chloë Goossens, Volkmar Müller, Matthias W. Beckmann, Alexander Hein, Daniel Anetsberger, Erik Belleville, Pauline Wimberger, Michael Untch, Arif B. Ekici, Hans-Christian Kolberg, Arndt Hartmann, Florin-Andrei Taran, Tanja N. Fehm, Diethelm Wallwiener, Sara Y. Brucker, Andreas Schneeweiss, Lothar Häberle, and Fergus J. Couch

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Germline mutations in BRCA1 and BRCA2 (gBRCA1/2) are required for a PARP inhibitor therapy in patients with HER2-negative (HER2−) advanced breast cancer (aBC). However, little is known about the prognostic impact of gBRCA1/2 mutations in aBC patients treated with chemotherapy. This study aimed to investigate the frequencies and prognosis of germline and somatic BRCA1/2 mutations in HER2- aBC patients receiving the first chemotherapy in the advanced setting. Patients receiving their first chemotherapy for HER2- aBC were retrospectively selected from the prospective PRAEGNANT registry (NCT02338167). Genotyping of 26 cancer predisposition genes was performed with germline DNA of 471 patients and somatic tumor DNA of 94 patients. Mutation frequencies, progression-free and overall survival (PFS, OS) according to germline mutation status were assessed. gBRCA1/2 mutations were present in 23 patients (4.9%), and 33 patients (7.0%) had mutations in other cancer risk genes. Patients with a gBRCA1/2 mutation had a better OS compared to non-mutation carriers (HR: 0.38; 95%CI: 0.17–0.86). PFS comparison was not statistically significant. Mutations in other risk genes did not affect prognosis. Two somatic BRCA2 mutations were found in 94 patients without gBRCA1/2 mutations. Most frequently somatic mutated genes were TP53 (44.7%), CDH1 (10.6%) and PTEN (6.4%). In conclusion, aBC patients with gBRCA1/2 mutations had a more favorable prognosis under chemotherapy compared to non-mutation carriers. The mutation frequency of ~5% with gBRCA1/2 mutations together with improved outcome indicates that germline genotyping of all metastatic patients for whom a PARP inhibitor therapy is indicated should be considered.

Published

2024

19. Non-perturbative Floquet engineering of the toric-code Hamiltonian and its ground state

Author

Petiziol, Francesco, Wimberger, Sandro, Eckardt, André, and Mintert, Florian

Subjects

Quantum Physics, Condensed Matter - Quantum Gases

Abstract

We theoretically propose a quantum simulation scheme for the toric-code Hamiltonian, the paradigmatic model of a quantum spin liquid, based on time-periodic driving. We develop a hybrid continuous-digital strategy that exploits the commutativity of different terms in the target Hamiltonian. It allows one to realize the required four-body interactions in a nonperturbative way, attaining strong coupling and the suppression of undesired processes. In addition, we design an optimal protocol for preparing the topologically ordered ground states with high fidelity. A proof-of-principle implementation of a topological device and its use to simulate the topological phase transition are also discussed. The proposed scheme finds natural implementation in architectures of superconducting qubits with tuneable couplings., Comment: 21 pages, 9 figures

Published

2022

20. High-fidelity quantum control via Autler-Townes splitting

Author

Delvecchio, Michele, Kirova, Teodora, Arimondo, Ennio, Ciampini, Donatella, and Wimberger, Sandro

Subjects

Quantum Physics, Physics - Atomic Physics

Abstract

We propose quantum control protocols for the high-fidelity preparation of target states in systems with Autler-Townes splitting. We investigate an approximated three-level system obtained from a four-level one by adiabatically eliminating a state that does not participate in the evolution. In our work we use linear, arctan, and Roland-Cerf functions for transferring population between two eigenstates of the system obtaining a high fidelity for long evolution times. Additionally, in order to overcome the restriction given by the lifetimes of the experimental setup, we propose an accelerated adiabatic evolution with a shortcut to adiabaticity protocol, which allows us to reach fidelities close to one but much faster.

Published

2022

21. Detecting Topological phase transitions in a double kicked quantum rotor

Author

Bolik, Nikolai, Groiseau, Caspar, Clark, Jerry H., Summy, Gil S., Liu, Yingmei, and Wimberger, Sandro

Subjects

Condensed Matter - Quantum Gases, Physics - Atomic Physics

Abstract

We present a concrete theoretical proposal for detecting topological phase transitions in double kicked atom-optics kicked rotors with internal spin-1/2 degree of freedom. The implementation utilizes a kicked Bose-Einstein condensate evolving in one-dimensional momentum space. To reduce influence of atom loss and phase decoherence we aim to keep experimental durations short while maintaining a resonant experimental protocol. Experimental limitations induced by phase noise, quasimomentum distributions, symmetries, and the AC-Stark shift are considered. Our results thus suggest a feasible and optimized procedure for observing topological phase transitions in quantum kicked rotors.

Published

2022

22. Parrondo's paradox for discrete-time quantum walks in momentum space

Author

Trautmann, Georg, Groiseau, Caspar, and Wimberger, Sandro

Subjects

Quantum Physics, Condensed Matter - Quantum Gases

Abstract

We investigate the possibility of implementing a sequence of quantum walks whose probability distributions give an overall positive winning probability, while it is negative for the single walks (Parrondo's paradox). In particular, we have in mind an experimental realisation with a Bose-Einstein condensate in which the walker's space is momentum space. Experimental problems in the precise implementation of the coin operations for our discrete-time quantum walks are analysed in detail. We study time-dependent phase fluctuations of the coins as well as perturbations arising from the finite momentum width of the condensate. We confirm the visibility of Parrondo's paradox for experimentally available time scales of up to a few hundred steps of the walk.

Published

2022

23. Assisted reproduction after SARS-CoV-2-infection: results of a single-center cohort-study

Author

Eckstein, Violet, Glaß, Katrin, Leßmann, Marie-Elisabeth, Schaar, Jessica, Klimova, Anna, Wimberger, Pauline, and Goeckenjan, Maren

Published

2024

24. Light-driven polymer recycling to monomers and small molecules

Author

Laura Wimberger, Gervase Ng, and Cyrille Boyer

Subjects

Science

Abstract

Abstract Only a small proportion of global plastic waste is recycled, of which most is mechanically recycled into lower quality materials. The alternative, chemical recycling, enables renewed production of pristine materials, but generally comes at a high energy cost, particularly for processes like pyrolysis. This review focuses on light-driven approaches for chemically recycling and upcycling plastic waste, with emphasis on reduced energy consumption and selective transformations not achievable with heat-driven methods. We focus on challenging to recycle backbone structures composed of mainly C‒C bonds, which lack functional groups i.e., esters or amides, that facilitate chemical recycling e.g., by solvolysis. We discuss the use of light, either in conjunction with heat to drive depolymerization to monomers or via photocatalysis to transform polymers into valuable small molecules. The structural prerequisites for these approaches are outlined, highlighting their advantages as well as limitations. We conclude with an outlook, addressing key challenges, opportunities, and provide guidelines for future photocatalyst (PC) development.

Published

2024

25. Urinary-based detection of MSL, HE4 and CA125 as an additional dimension for predictive and prognostic modelling in ovarian cancer

Author

Franziska Maria Schwarz, Daniel Martin Klotz, Pauline Wimberger, and Jan Dominik Kuhlmann

Subjects

ovarian cancer, urine, MSL, CA125, HE4, prognostic modelling, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

ObjectivesWe have recently described a predictive/prognostic model for ovarian cancer, exploiting commonly available clinico-pathological parameters and the ovarian serum biomarkers mesothelin (MSL), human epididymis protein 4 (HE4) and cancer-antigen 125 (CA125). Considering urine as a prototype non-invasive sample, we investigated whether serum levels of these biomarkers are mirrored in urine and compared their clinical relevance in matched serum vs. urine samples.MethodsMSL, HE4 and CA125 were quantified in urinary (n=172) and matched serum samples (n=188) from ovarian cancer patients (n=192) using the Lumipulse® G chemiluminescent enzyme immunoassay (Fujirebio).ResultsWhile absolute concentrations of MSL or CA125 were higher in serum than in matched urine samples, HE4 concentrations were considerably higher in urine than in serum. Nonetheless, the levels of all three biomarkers strongly correlated between matched serum vs. urine samples and were unrelated to BRCA1/2 mutational status. Consequently, prediction of surgical outcome or relapse/death by MSL, HE4 or CA125 was similarly efficient among urinary- vs. serum-based detection. HE4 provided the highest capacity to predict surgical outcome or relapse/death among both body fluids (urine: AUC=0.854; serum: AUC=0.750, respectively). All clinically relevant findings regarding the investigated urinary biomarkers were equally reproducible among raw vs. creatinine-normalized datasets, suggesting that normalization may have subordinate priority for urine-based analysis of these biomarkers.ConclusionWe report that the capacity of MSL, HE4 and CA125 to predict surgical outcome and relapse/death is equivalent between serum vs. urine-based detection. Urinary biomarkers, in particular HE4, may provide an additional dimension for prognostic modeling in ovarian cancer.

Published

2024

26. Light-shift induced behaviors observed in momentum-space quantum walks

Author

Bolik, Nikolai, Groiseau, Caspar, Clark, Jerry H., Gresch, Alexander, Dadras, Siamak, Summy, Gil S., Liu, Yingmei, and Wimberger, Sandro

Subjects

Quantum Physics, Condensed Matter - Quantum Gases

Abstract

Over the last decade there have been many advances in studies of quantum walks (QWs) including a momentum-space QW recently realized in our spinor Bose-Einstein condensate system. This QW possessed behaviors that generally agreed with theoretical predictions; however, it also showed momentum distributions that were not adequately explained by the theory. We present a theoretical model which proves that the coherent dynamics of the spinor condensate is sufficient to explain the experimental data without invoking the presence of a thermal cloud of atoms as in the original theory. Our numerical findings are supported by an analytical prediction for the momentum distributions in the limit of zero-temperature condensates. This current model provides more complete explanations to the momentum-space QWs that can be applied to study quantum search algorithms and topological phases in Floquet-driven systems., Comment: experimental and theoretical paper on discrete-time quantum walks

Published

2022

27. Classical model for survival resonances close to Talbot time

Author

Andersen, Mikkel F. and Wimberger, Sandro

Subjects

Quantum Physics, Condensed Matter - Quantum Gases, Nonlinear Sciences - Chaotic Dynamics

Abstract

We present a classical approximation for the peaks of survival resonances occurring when diffracting matter waves from absorption potentials. Generally our simplified model describes the absorption-diffraction process around the Talbot time very well. Classical treatments of this process are presently lacking. For purely imaginary potentials, the classical model duplicates quantum mechanical calculations. The classical model allows for simple evolution of phase-space probability densities, which in the limit of the effective Planck's constant going to zero allows for a compact analytical expression of the survival probability as a function of remaining parameters. Our work extends the range of processes that can be described through classical analogues.

Published

2022

28. Schwangerschaft und Ovarialkarzinom – was sind die Besonderheiten bei Diagnostik und Therapie?

Author

Zaby, Katharina and Wimberger, Pauline

Published

2023

29. Correct and accurate polymorphic energy ordering of transition-metal monoxides obtained from semilocal and onsite-hybrid exchange-correlation approximations

Author

Ghosh, Arghya, Jana, Subrata, Niranjan, Manish K, Tran, Fabien, Wimberger, David, Blaha, Peter, Constantin, Lucian A., and Samal, Prasanjit

Subjects

Condensed Matter - Materials Science

Abstract

The relative energetic stability of the structural phases of common antiferromagnetic transition-metal oxides (MnO, FeO, CoO, and NiO) within the semilocal and hybrid density functionals are fraught with difficulties. In particular, MnO is known to be the most difficult case for almost all common semilocal and hybrid density approximations. Here, we show that the meta-generalized gradient approximation (meta-GGA) constructed from the cuspless hydrogen model and Pauli kinetic energy density (MGGAC) can lead to the correct ground state of MnO. The relative energy differences of zinc-blende (zb) and rock-salt (rs) structures as computed using MGGAC are found to be in nice agreement with those obtained from high-level correlation methods like the random phase approximation or quantum Monte Carlo techniques. Besides, we have also applied the onsite hybrid functionals (closely related to DFT+U ) based on GGA and meta-GGA functionals, and it is shown that a relatively high amount of Hartree-Fock exchange is necessary to obtain the correct ground-state structure. Our present investigation suggests that the semilocal MGGAC and onsite hybrids, both being computationally cheap, as methods of choice for the calculation of the relative stability of antiferromagnetic transition-metal oxides having potential applications in solid-state physics and structural chemistry.

Published

2021

30. Correlation of strontium anharmonicity with charge-lattice dynamics of the apical oxygens and their coupling to cuprate superconductivity

Author

Conradson, Steven D., Velasco, Victor, Neto, Marcello B. Silva, Geballe, Theodore H., Jin, Chang-Qing, Li, Wen-Min, Cao, Li-Peng, Gauzzi, Andrea, Karppinen, Maarit, Perali, Andrea, Wimberger, Sandro, Bishop, Alan R., Baldinozzi, Gianguido, Latimer, Matthew, and Gilioli, Edmondo

Subjects

Condensed Matter - Superconductivity

Abstract

Cu K edge X-ray absorption spectra of overdoped superconducting $YSr_2Cu_{2.75}Mo_{0.25}O_{7.54}$ and $Sr_2CuO_{3.3}$ show a remarkably strong correlation of their superconductivity with the local dynamics of their Cu-Sr and Cu-apical-O pairs. This finding that the entire alkaline earth cation-apical O "dielectric" layer has an active role in the unusual electronic properties of cuprates has not been previously considered and has far reaching implications. We develop this idea of a possible role for the apical oxygen charge dynamics via a soft mode of the Sr by applying Kuramoto's synchronization technique to exact diagonalization calculations of two neighboring Cu-apical O pairs bridged by Sr and a planar O atom. These calculations show a first order phase transition to a synchronized state of the Internal Quantum Tunneling Polarons (IQTPs) in which a fraction of the hole originally confined to the apical O atoms of the cluster is transferred onto the planar O. This combination of experimental results and theory demonstrates that the Sr-O dielectric layer of cuprates most likely plays an important role in high temperature superconductivity via its collective charge dynamics that extends into the $CuO_2$ conducting planes., Comment: 17 pages, 7 figures

Published

2021

31. Kuramoto synchronization of quantum tunneling polarons for describing the dynamic structure in cuprate superconductors

Author

Velasco, Victor, Neto, Marcello B. Silva, Perali, Andrea, Wimberger, Sandro, Bishop, Alan R., and Conradson, Steven D.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

A major open topic in cuprates is the interplay between the lattice and electronic dynamics and the importance of their coupling to the mechanism of high-temperature superconductivity (HTSC). As evidenced by Extended X-ray Absorption Fine Structure experiments (EXAFS), anharmonic structural effects are correlated with the charge dynamics and the transition to a superconducting phase in different HTSC compounds. Here we describe how structural anharmonic effects can be coupled to electronic and lattice dynamics in cuprate systems by performing the exact diagonalization of a prototype anharmonic many-body Hamiltonian on a relevant six-atom cluster and show that the EXAFS results can be understood as a Kuramoto synchronization between coupled internal quantum tunneling polarons associated with the two-site distribution of the copper-apical-oxygen ($Cu-O_{ap}$) pair in the dynamic structure. Furthermore, we find that this first order, anti-phase synchronization transition can be fine tuned by temperature and anharmonicity of the lattice vibrations, and promotes the pumping of charge, initially stored at the apical oxygen reservoirs, into the copper-oxide planes. Simultaneously, the internal quantum tunneling polaron extends to the copper-planar-oxygen ($Cu-O_{pl}$) pair. All these findings support an interpretation of the EXAFS data in terms of an effective, quantum mechanical triple-well-potential, which accurately represents the anti-phase synchronization of apical oxygens displacements and lattice-assisted charge transfer to the $CuO_2$ plane., Comment: 13 pages, 5 figures. Submitted to Physical Review B

Published

2021

32. A Type II-B Cas9 nuclease with minimized off-targets and reduced chromosomal translocations in vivo

Author

Bestas, Burcu, Wimberger, Sandra, Degtev, Dmitrii, Madsen, Alexandra, Rottner, Antje K., Karlsson, Fredrik, Naumenko, Sergey, Callahan, Megan, Touza, Julia Liz, Francescatto, Margherita, Möller, Carl Ivar, Badertscher, Lukas, Li, Songyuan, Cerboni, Silvia, Selfjord, Niklas, Ericson, Elke, Gordon, Euan, Firth, Mike, Chylinski, Krzysztof, Taheri-Ghahfarokhi, Amir, Bohlooly-Y, Mohammad, Snowden, Mike, Pangalos, Menelaos, Nuttall, Barrett, Akcakaya, Pinar, Sienski, Grzegorz, and Maresca, Marcello

Published

2023

33. Simultaneous inhibition of DNA-PK and Polϴ improves integration efficiency and precision of genome editing

Author

Wimberger, Sandra, Akrap, Nina, Firth, Mike, Brengdahl, Johan, Engberg, Susanna, Schwinn, Marie K., Slater, Michael R., Lundin, Anders, Hsieh, Pei-Pei, Li, Songyuan, Cerboni, Silvia, Sumner, Jonathan, Bestas, Burcu, Schiffthaler, Bastian, Magnusson, Björn, Di Castro, Silvio, Iyer, Preeti, Bohlooly-Y, Mohammad, Machleidt, Thomas, Rees, Steve, Engkvist, Ola, Norris, Tyrell, Cadogan, Elaine B., Forment, Josep V., Šviković, Saša, Akcakaya, Pinar, Taheri-Ghahfarokhi, Amir, and Maresca, Marcello

Published

2023

34. The effect of denosumab on disseminated tumor cells (DTCs) of breast cancer patients with neoadjuvant treatment: a GeparX translational substudy

Author

Wimberger, Pauline, Blohmer, Jens-Uwe, Krabisch, Petra, Link, Theresa, Just, Marianne, Sinn, Bruno Valentin, Simon, Eike, Solbach, Christine, Fehm, Tanja, Denkert, Carsten, Kühn, Cristin, Rhiem, Kerstin, Tesch, Hans, Kümmel, Sherko, Petzold, Andrea, Stötzer, Oliver, Meisel, Cornelia, Kuhlmann, Jan Dominik, Nekljudova, Valentina, and Loibl, Sibylle

Published

2023

35. Mesenchymal stromal cell-associated migrasomes: a new source of chemoattractant for cells of hematopoietic origin

Author

Deniz, Ilker A., Karbanová, Jana, Wobus, Manja, Bornhäuser, Martin, Wimberger, Pauline, Kuhlmann, Jan Dominik, and Corbeil, Denis

Published

2023

36. Quantum to Classical Walk Transitions Tuned by Spontaneous Emissions

Author

Clark, J. H., Groiseau, C., Shaw, Z. N., Dadras, S., Binegar, C., Wimberger, S., Summy, G. S., and Liu, Y.

Subjects

Quantum Physics, Condensed Matter - Quantum Gases

Abstract

We have realized a quantum walk in momentum space with a rubidium spinor Bose-Einstein condensate by applying a periodic kicking potential as a walk operator and a resonant microwave pulse as a coin toss operator. The generated quantum walks appear to be stable for up to ten steps and then quickly transit to classical walks due to spontaneous emissions induced by laser beams of the walk operator. We investigate these quantum to classical walk transitions by introducing well controlled spontaneous emissions with an external light source during quantum walks. Our findings demonstrate a scheme to control the robustness of the quantum walks and can also be applied to other cold atom experiments involving spontaneous emissions.

Published

2021

37. A Type II-B Cas9 nuclease with minimized off-targets and reduced chromosomal translocations in vivo

Author

Burcu Bestas, Sandra Wimberger, Dmitrii Degtev, Alexandra Madsen, Antje K. Rottner, Fredrik Karlsson, Sergey Naumenko, Megan Callahan, Julia Liz Touza, Margherita Francescatto, Carl Ivar Möller, Lukas Badertscher, Songyuan Li, Silvia Cerboni, Niklas Selfjord, Elke Ericson, Euan Gordon, Mike Firth, Krzysztof Chylinski, Amir Taheri-Ghahfarokhi, Mohammad Bohlooly-Y, Mike Snowden, Menelaos Pangalos, Barrett Nuttall, Pinar Akcakaya, Grzegorz Sienski, and Marcello Maresca

Subjects

Science

Abstract

Abstract Streptococcus pyogenes Cas9 (SpCas9) and derived enzymes are widely used as genome editors, but their promiscuous nuclease activity often induces undesired mutations and chromosomal rearrangements. Several strategies for mapping off-target effects have emerged, but they suffer from limited sensitivity. To increase the detection sensitivity, we develop an off-target assessment workflow that uses Duplex Sequencing. The strategy increases sensitivity by one order of magnitude, identifying previously unknown SpCas9’s off-target mutations in the humanized PCSK9 mouse model. To reduce off-target risks, we perform a bioinformatic search and identify a high-fidelity Cas9 variant of the II-B subfamily from Parasutterella secunda (PsCas9). PsCas9 shows improved specificity as compared to SpCas9 across multiple tested sites, both in vitro and in vivo, including the PCSK9 site. In the future, while PsCas9 will offer an alternative to SpCas9 for research and clinical use, the Duplex Sequencing workflow will enable a more sensitive assessment of Cas9 editing outcomes.

Published

2023

38. Pazopanib with Topotecan weekly for patients with platinum-resistant or intermediate-sensitive recurrent ovarian cancer: results of a multicentre, open label phase I/II study (TOPAZ)

Author

Chekerov, Radoslav, Arndt, Tjadina, Pietzner, Klaus, Canzler, Ulrich, Wimberger, Pauline, Strauß, Hans-Georg, Mahner, Sven, Woelber, Linn, de Gregorio, Nikolaus, Stocker, Gertraud, von Abel, Ekkehard, Neunhoeffer, Tanja, Belau, Antje Kristina, Mustea, Alexander, Yalinkaya, Isil, Braicu, Elena Ioana, Richter, Rolf, and Sehouli, Jalid

Published

2023

39. Atomic interactions for qubit-error compensations

Author

Delvecchio, Michele, Petiziol, Francesco, Arimondo, Ennio, and Wimberger, Sandro

Subjects

Quantum Physics, Condensed Matter - Quantum Gases, Physics - Atomic Physics

Abstract

Experimental imperfections induce phase and population errors in quantum systems. We present a method to compensate unitary errors affecting also the population of the qubit states. This is achieved through the interaction of the target qubit with an additional control qubit. We show that our approach works well for single-photon and two-photon excitation schemes. In the first case, we study two reduced models (i) a two-level system in which the interaction corresponds to an effective level shift and (ii) a three-level one describing two qubits in the Bell triplet subspace. In the second case, instead, a double-STIRAP process is presented with comparable compensation efficiency with respect to the single-photon case., Comment: Version 2, comments are very welcome

Published

2021

40. Counteracting dephasing in Molecular Nanomagnets by optimized qudit encodings

Author

Petiziol, Francesco, Chiesa, Alessandro, Wimberger, Sandro, Santini, Paolo, and Carretta, Stefano

Subjects

Quantum Physics

Abstract

Molecular Nanomagnets may enable the implementation of qudit-based quantum error-correction codes which exploit the many spin levels naturally embedded in a single molecule, a promising step towards scalable quantum processors. To fully realize the potential of this approach, a microscopic understanding of the errors corrupting the quantum information encoded in a molecular qudit is essential, together with the development of tailor-made quantum error correction strategies. We address these central points by first studying dephasing effects on the molecular spin qudit produced by the interaction with surrounding nuclear spins, which are the dominant source of errors at low temperatures. Numerical quantum error correction codes are then constructed, by means of a systematic optimisation procedure based on simulations of the coupled system-bath dynamics, that provide a striking enhancement of the coherence time of the molecular computational unit. The sequence of pulses needed for the experimental implementation of the codes is finally proposed., Comment: 11 pages, 7 figures

Published

2021

41. One-Dimensional Fuzzy Dark Matter Models: Structure Growth and Asymptotic Dynamics

Author

Zimmermann, Tim, Schwersenz, Nico, Pietroni, Massimo, and Wimberger, Sandro

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Condensed Matter - Quantum Gases, Nonlinear Sciences - Pattern Formation and Solitons

Abstract

This paper investigates the feasibility of simulating Fuzzy Dark Matter (FDM) with a reduced number of spatial dimensions. Our aim is to set up a realistic, yet numerically inexpensive, toy model in $(1+1)$-dimensional space time, that - under well controlled system conditions - is capable of realizing important aspects of the full-fledged $(3+1)$-FDM phenomenology by means of one-dimensional analogues. Based on the coupled, nonlinear and nonlocal $(3+1)$-Schr\"odinger-Poisson equation under periodic boundary conditions, we derive two distinct one-dimensional models that differ in their transversal matter distribution and consequently in their nonlocal interaction along the single dimension of interest. We show that these discrepancies change the relaxation process of initial states as well as the asymptotic, i.e., thermalized and virialized, equilibrium state. Our investigation includes the dynamical evolution of artificial initial conditions for non-expanding space, as well as cosmological initial conditions in expanding space. The findings of this work are relevant for the interpretation of numerical simulation data modelling nonrelativistic fuzzy cold dark matter in reduced dimensions, in the quest for testing such models and for possible laboratory implementations of them., Comment: 24 pages, 14 figures, accepted for publication in Physical Review D

Published

2021

42. Finite-size effects in a bosonic Josephson junction

Author

Wimberger, S., Manganelli, G., Brollo, A., and Salasnich, L.

Subjects

Condensed Matter - Quantum Gases, Condensed Matter - Superconductivity

Abstract

We investigate finite-size quantum effects in the dynamics of $N$ bosonic particles which are tunneling between two sites adopting the two-site Bose-Hubbard model. By using time-dependent atomic coherent states (ACS) we extend the standard mean-field equations of this bosonic Josephson junction, which are based on time-dependent Glauber coherent states. In this way we find $1/N$ corrections to familiar mean-field (MF) results: the frequency of macroscopic oscillation between the two sites, the critical parameter for the dynamical macroscopic quantum self trapping (MQST), and the attractive critical interaction strength for the spontaneous symmetry breaking (SSB) of the ground state. To validate our analytical results we perform numerical simulations of the quantum dynamics. In the case of Josephson oscillations around a balanced configuration we find that also for a few atoms the numerical results are in good agreement with the predictions of time-dependent ACS variational approach, provided that the time evolution is not too long. Also the numerical results of SSB are better reproduced by the ACS approach with respect to the MF one. Instead the onset of MQST is correctly reproduced by ACS theory only in the large $N$ regime and, for this phenomenon, the $1/N$ correction to the MF formula is not reliable., Comment: 8 pages, 4 figures, improved version

Published

2021

43. Psychische Belastung und deren Einflussfaktoren bei Überlebenden von malignen ovariellen Keimzell- oder Keimstrangstromatumoren – eine Analyse der AGO-CORSETT-Datenbank

Author

Bossart, M., Plett, H., Krämer, B., Braicu, E., Czogalla, B., Klar, M., Singer, S., Mayr, D., Staebler, A., du Bois, A., Kommoss, S., Link, T., Burges, A., Heitz, F., Grube, M., Trillsch, F., Harter, P., Wimberger, P., Buderath, P., and Hasenburg, A.

Published

2023

44. Operative Therapie einschließlich Lymphknotenstaging beim Endometriumkarzinom

Author

Meusel, M. and Wimberger, P.

Published

2023

45. INOVATYON/ ENGOT-ov5 study: Randomized phase III international study comparing trabectedin/pegylated liposomal doxorubicin (PLD) followed by platinum at progression vs carboplatin/PLD in patients with recurrent ovarian cancer progressing within 6-12 months after last platinum line

Author

Colombo, N., Gadducci, A., Sehouli, J., Rulli, E., Mäenpää, J., Sessa, C., Montes, A., Ottevanger, N. B., Berger, R., Vergote, I., D’Incalci, M., Churruca Galaz, C., Chekerov, R., Nyvang, G. B., Riniker, S., Herbertson, R., Fossati, R., Barretina-Ginesta, M. P., Deryal, M., Mirza, M. R., Biagioli, E., Iglesias, M., Funari, G., Romeo, M., Tasca, G., Pardo, B., Tognon, G., Rubio-Pérez, M. J., DeCensi, A., De Giorgi, U., Zola, P., Benedetti Panici, P., Aglietta, M., Arcangeli, V., Zamagni, C., Bologna, A., Westermann, A., Heinzelmann-Schwarz, V., Tsibulak, I., Wimberger, P., and Poveda, A.

Published

2023

46. Depression and anxiety in women with malignant ovarian germ cell (MOGCT) and sex cord stromal tumors (SCST): an analysis of the AGO-CORSETT database

Author

Bossart, M., Plett, H., Krämer, B., Braicu, E., Czogalla, B., Klar, M., Singer, S., Mayr, D., Staebler, A., du Bois, A., Kommoss, S., Link, T., Burges, A., Heitz, F., Grube, M., Trillsch, F., Harter, P., Wimberger, P., Buderath, P., and Hasenburg, A.

Published

2023

47. Simultaneous inhibition of DNA-PK and Polϴ improves integration efficiency and precision of genome editing

Author

Sandra Wimberger, Nina Akrap, Mike Firth, Johan Brengdahl, Susanna Engberg, Marie K. Schwinn, Michael R. Slater, Anders Lundin, Pei-Pei Hsieh, Songyuan Li, Silvia Cerboni, Jonathan Sumner, Burcu Bestas, Bastian Schiffthaler, Björn Magnusson, Silvio Di Castro, Preeti Iyer, Mohammad Bohlooly-Y, Thomas Machleidt, Steve Rees, Ola Engkvist, Tyrell Norris, Elaine B. Cadogan, Josep V. Forment, Saša Šviković, Pinar Akcakaya, Amir Taheri-Ghahfarokhi, and Marcello Maresca

Subjects

Science

Abstract

Abstract Genome editing, specifically CRISPR/Cas9 technology, has revolutionized biomedical research and offers potential cures for genetic diseases. Despite rapid progress, low efficiency of targeted DNA integration and generation of unintended mutations represent major limitations for genome editing applications caused by the interplay with DNA double-strand break repair pathways. To address this, we conduct a large-scale compound library screen to identify targets for enhancing targeted genome insertions. Our study reveals DNA-dependent protein kinase (DNA-PK) as the most effective target to improve CRISPR/Cas9-mediated insertions, confirming previous findings. We extensively characterize AZD7648, a selective DNA-PK inhibitor, and find it to significantly enhance precise gene editing. We further improve integration efficiency and precision by inhibiting DNA polymerase theta (Polϴ). The combined treatment, named 2iHDR, boosts templated insertions to 80% efficiency with minimal unintended insertions and deletions. Notably, 2iHDR also reduces off-target effects of Cas9, greatly enhancing the fidelity and performance of CRISPR/Cas9 gene editing.

Published

2023

48. Quantum simulation of three-body interactions in weakly driven quantum systems

Author

Petiziol, Francesco, Sameti, Mahdi, Carretta, Stefano, Wimberger, Sandro, and Mintert, Florian

Subjects

Quantum Physics, Condensed Matter - Quantum Gases

Abstract

The realization of effective Hamiltonians featuring many-body interactions beyond pairwise coupling would enable the quantum simulation of central models underpinning topological physics and quantum computation. We overcome crucial limitations of perturbative Floquet engineering and discuss the highly accurate realization of a purely three-body Hamiltonian in superconducting circuits and molecular nanomagnets., Comment: 6+8 pages, 3+4 figures

Published

2020

49. Dephasing-rephasing dynamics of one-dimensional tunneling quasicondensates

Author

Tononi, Andrea, Toigo, Flavio, Wimberger, Sandro, Cappellaro, Alberto, and Salasnich, Luca

Subjects

Condensed Matter - Quantum Gases

Abstract

We study the quantum tunneling of two one-dimensional quasi-condensates made of alkali-metal atoms, considering two different tunneling configurations: side-by-side and head-to-tail. After deriving the quasiparticle excitation spectrum, we discuss the dynamics of the relative phase following a sudden coupling of the independent subsystems. In particular, we calculate the coherence factor of the system, which, due to the nonzero tunneling amplitude, it exhibits dephasing-rephasing oscillations instead of pure dephasing. These oscillations are enhanced by a higher tunneling energy, and by higher system densities. Our predictions provide a benchmark for future experiments at temperatures below $T \lesssim 5 \, \mbox{nK}$., Comment: 15 pages, 4 figures

Published

2020

50. Quantum search with a continuous-time quantum walk in momentum space

Author

Delvecchio, Michele, Groiseau, Caspar, Petiziol, Francesco, Summy, Gil S, and Wimberger, Sandro

Subjects

Quantum Physics, Condensed Matter - Quantum Gases

Abstract

The atom-optics kicked rotor can be used to prepare specific momentum distributions on a discrete basis set. We implement a continuous-time quantum walk and a quantum search protocol in this momentum basis. In particular we propose ways to identify a specific marked state from the final momentum distribution after the walker's evolution. Our protocol is guided by current experimental possibilities making it accessible to experimentally implemented quantum walks with Bose-Einstein condensates.

Published

2020