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14 results on '"Schmidt, Jan-Niklas"'

1. Roton Excitations in an Oblate Dipolar Quantum Gas

Author

Schmidt, Jan-Niklas, Hertkorn, Jens, Guo, Mingyang, Böttcher, Fabian, Schmidt, Matthias, Ng, Kevin S. H., Graham, Sean D., Langen, Tim, Zwierlein, Martin, and Pfau, Tilman

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

We observe signatures of radial and angular roton excitations around a droplet crystallization transition in dipolar Bose-Einstein condensates. In situ measurements are used to characterize the density fluctuations near this transition. The static structure factor is extracted and used to identify the radial and angular roton excitations by their characteristic symmetries. These fluctuations peak as a function of interaction strength indicating the crystallization transition of the system. We compare our observations to a theoretically calculated excitation spectrum allowing us to connect the crystallization mechanism with the softening of the angular roton modes., Comment: 10 pages, 4 + 4 figures

Published
2021
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2. New states of matter with fine-tuned interactions: quantum droplets and dipolar supersolids

Author

Böttcher, Fabian, Schmidt, Jan-Niklas, Hertkorn, Jens, Ng, Kevin S. H., Graham, Sean D., Guo, Mingyang, Langen, Tim, and Pfau, Tilman

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

Quantum fluctuations can stabilize Bose-Einstein condensates (BEC) against the mean-field collapse. Stabilization of the condensate has been observed in quantum degenerate Bose-Bose mixtures and dipolar BECs. The fine-tuning of the interatomic interactions can lead to the emergence of two new states of matter: liquid-like selfbound quantum droplets and supersolid crystals formed from these droplets. We review the properties of these exotic states of matter and summarize the experimental progress made using dipolar quantum gases and Bose-Bose mixtures. We conclude with an outline of important open questions that could be addressed in the future.

Published
2020
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3. The Fate of the Higgs Mode in a Trapped Dipolar Supersolid

Author

Hertkorn, Jens, Böttcher, Fabian, Guo, Mingyang, Schmidt, Jan-Niklas, Langen, Tim, Büchler, Hans Peter, and Pfau, Tilman

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

We theoretically investigate the spectrum of elementary excitations of a trapped dipolar quantum gas across the BEC-supersolid phase transition. Our calculations reveal the existence of distinct Higgs and Nambu-Goldstone modes that emerge from the softening roton modes of the dipolar BEC at the phase transition point. On the supersolid side of the transition, the energy of the Higgs mode increases rapidly, leading to a strong coupling to higher-lying modes. Our study highlights how the symmetry-breaking nature of the supersolid state translates to finite-size systems.

Published
2019
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4. The low-energy Goldstone mode in a trapped dipolar supersolid

Author

Guo, Mingyang, Böttcher, Fabian, Hertkorn, Jens, Schmidt, Jan-Niklas, Wenzel, Matthias, Büchler, Hans Peter, Langen, Tim, and Pfau, Tilman

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

A supersolid is a counter-intuitive state of matter that combines the frictionless flow of a superfluid with the crystal-like periodic density modulation of a solid. Since the first prediction in the 1950s, experimental efforts to realize this state have focussed mainly on Helium, where supersolidity remains elusive. Recently, supersolidity has also been studied intensively in ultracold quantum gases, and some of its defining properties have been induced in spin-orbit coupled Bose-Einstein condensates (BECs) and BECs coupled to two crossed optical cavities. However, the periodicity of the crystals in both systems is fixed to the wavelength of the applied periodic optical potentials. Recently, hallmark properties of a supersolid -- the periodic density modulation and simultaneous global phase coherence -- have been observed in arrays of dipolar quantum droplets, where the crystallization happens in a self-organized manner due to intrinsic interactions. In this letter, we prove the genuine supersolid nature of these droplet arrays by directly observing the low-energy Goldstone mode. The dynamics of this mode is reminiscent of the effect of second sound in other superfluid systems and features an out-ofphase oscillation of the crystal array and the superfluid density. This mode exists only due to the phase rigidity of the experimentally realized state, and therefore confirms the genuine superfluidity of the supersolid.

Published
2019
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5. Dilute dipolar quantum droplets beyond the extended Gross-Pitaevskii equation

Author

Böttcher, Fabian, Wenzel, Matthias, Schmidt, Jan-Niklas, Guo, Mingyang, Langen, Tim, Ferrier-Barbut, Igor, Pfau, Tilman, Bombín, Raúl, Sánchez-Baena, Joan, Boronat, Jordi, and Mazzanti, Ferran

Subjects
Condensed Matter - Quantum Gases
Abstract

Dipolar quantum droplets are exotic quantum objects that are self-bound due to the subtle balance of attraction, repulsion and quantum correlations. Here we present a systematic study of the critical atom number of these self-bound droplets, comparing the experimental results with extended mean-field Gross-Pitaevskii equation (eGPE) and quantum Monte-Carlo simulations of the dilute system. The respective theoretical predictions differ, questioning the validity of the current theoretical state-of-the-art description of quantum droplets within the eGPE framework and indicating that correlations in the system are significant. Furthermore, we show that our system can serve as a sensitive testing ground for many-body theories in the near future.

Published
2019
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6. Transient supersolid properties in an array of dipolar quantum droplets

Author

Böttcher, Fabian, Schmidt, Jan-Niklas, Wenzel, Matthias, Hertkorn, Jens, Guo, Mingyang, Langen, Tim, and Pfau, Tilman

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

We study theoretically and experimentally the emergence of supersolid properties in a dipolar Bose-Einstein condensate. The theory reveals a ground state phase diagram with three distinct regimes - a regular Bose-Einstein condensate, incoherent and coherent arrays of quantum droplets. In the latter the droplets are connected by a finite superfluid density, which leads - in addition to the periodic density modulation - to a robust phase coherence throughout the whole system. We further theoretically demonstrate that we are able to dynamically approach the ground state in our experiment and that its lifetime is only limited by three-body losses. Experimentally we probe and confirm the signatures of the phase diagram by observing the in-situ density modulation as well as the phase coherence using matter wave interference.

Published
2019
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7. Anisotropic Superfluid Behavior of a Dipolar Bose-Einstein Condensate

Author

Wenzel, Matthias, Böttcher, Fabian, Schmidt, Jan-Niklas, Eisenmann, Michael, Langen, Tim, Pfau, Tilman, and Ferrier-Barbut, Igor

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

We present transport measurements on a dipolar superfluid using a Bose-Einstein condensate of Dy-162 with strong magnetic dipole-dipole interactions. By moving an attractive laser beam through the condensate we observe an anisotropy in superfluid flow. This observation is compatible with an anisotropic critical velocity for the breakdown of dissipationless flow, which, in the spirit of the Landau criterion, can directly be connected to the anisotropy of the underlying dipolar excitation spectrum. In addition, the heating rate above this critical velocity reflects the same anisotropy. Our observations are in excellent agreement with simulations based on the Gross-Pitaevskii equation and highlight the effect of dipolar interactions on macroscopic transport properties, rendering dissipation anisotropic.

Published
2018
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8. The winter 2019 air pollution (PM2.5) measurement campaign in Christchurch, New Zealand

Author

Dale, Ethan R., primary, Kremser, Stefanie, additional, Tradowsky, Jordis S., additional, Bodeker, Greg E., additional, Bird, Leroy J., additional, Olivares, Gustavo, additional, Coulson, Guy, additional, Somervell, Elizabeth, additional, Pattinson, Woodrow, additional, Barte, Jonathan, additional, Schmidt, Jan-Niklas, additional, Abrahim, Nariefa, additional, McDonald, Adrian J., additional, and Kuma, Peter, additional

Published
2021
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9. Dilute dipolar quantum droplets beyond the extended Gross-Pitaevskii equation

Author

Universitat Politècnica de Catalunya. Doctorat en Física Computacional i Aplicada, Universitat Politècnica de Catalunya. Departament de Física, Universitat Politècnica de Catalunya. SIMCON - First-principles approaches to condensed matter physics: quantum effects and complexity, Bötcher, Fabian, Wenzel, Matthias, Schmidt, Jan-Niklas, Guo, Mingyang, Langen, Tim, Ferrier-Barbut, Igor, Pfau, Tilman, Bombín Escudero, Raul, Sánchez Baena, Juan, Boronat Medico, Jordi, Mazzanti Castrillejo, Fernando Pablo, Universitat Politècnica de Catalunya. Doctorat en Física Computacional i Aplicada, Universitat Politècnica de Catalunya. Departament de Física, Universitat Politècnica de Catalunya. SIMCON - First-principles approaches to condensed matter physics: quantum effects and complexity, Bötcher, Fabian, Wenzel, Matthias, Schmidt, Jan-Niklas, Guo, Mingyang, Langen, Tim, Ferrier-Barbut, Igor, Pfau, Tilman, Bombín Escudero, Raul, Sánchez Baena, Juan, Boronat Medico, Jordi, and Mazzanti Castrillejo, Fernando Pablo

Abstract

Dipolar quantum droplets are exotic quantum objects that are self-bound due to the subtle balance of attraction, repulsion, and quantum correlations. Here we present a systematic study of the critical atom number of these self-bound droplets, comparing the experimental results with extended mean-field Gross-Pitaevskii equation and quantum Monte Carlo simulations of the dilute system. The respective theoretical predictions differ, questioning the validity of the current theoretical state-of-the-art description of quantum droplets within the extended Gross-Pitaevskii equation framework and indicating that correlations in the system are significant. Furthermore, we show that our system can serve as a sensitive testing ground for many-body theories in the near future., Postprint (published version)

Published
2019

13. The winter 2019 air pollution (PM2.5) measurement campaign in Christchurch, New Zealand.

Author

Dale, Ethan R., Kremser, Stefanie, Tradowsky, Jordis S., Bodeker, Greg E., Bird, Leroy J., Olivares, Gustavo, Coulson, Guy, Somervell, Elizabeth, Pattinson, Woodrow, Barte, Jonathan, Schmidt, Jan-Niklas, Abrahim, Nariefa, McDonald, Adrian J., and Kuma, Peter

Subjects
EMISSIONS (Air pollution), AUTOMATIC meteorological stations, ACQUISITION of data, PARTICULATE matter, AIR pollution, WIND power, WIND speed
Abstract

MAPM (Mapping Air Pollution eMissions) is a project whose goal is to develop a method to infer particulate matter (PM) emissions maps from in situ PM concentration measurements. In support of MAPM, a winter field campaign was conducted in New Zealand in 2019 (June to September) to obtain the measurements required to test and validate the MAPM methodology. Two different types of instruments measuring PM were deployed: ES-642 remote dust monitors (17 instruments) and Outdoor Dust Information Nodes (ODINs; 50 instruments). The measurement campaign was bracketed by two intercomparisons where all instruments were co-located, with a permanently installed Tapered Element Oscillating Membrane (TEOM) instrument, to determine any instrument biases. Changes in biases between the pre-and post-campaign intercomparisons were used to determine instrument drift over the campaign period. Once deployed, each ES-642 was co-located with an ODIN. In addition to the PM measurements, meteorological variables (temperature, pressure, wind speed and wind direction) were measured at three automatic weather station (AWS) sites established as part of the campaign, with additional data being sourced from 27 further AWSs operated by other agencies. Vertical profile measurements were made in two intensive radiosonde subcampaigns and were supplemented with measurements made with a mini micropulse lidar and ceilometer. Here we present the data collected during the campaign and discuss the correction of the measurements made by various PM instruments. We find that for while for the ODINs a correction based on environmental conditions is beneficial, this results in over-fitting and increased uncertainties when applied to the measurements obtained using the more sophisticated ES-642s. We also compare PM2.5 and PM10 measured by ODINs which, in some cases, allows us to identify PM from natural and anthropogenic sources. The PM data collected during the campaign are publicly available from https://doi.org/10.5281/zenodo.4023402 (Dale et al., 2020b), the data from other instruments are available from https://doi.org/10.5281/zenodo.4021685 (Dale et al., 2020a). [ABSTRACT FROM AUTHOR]

Published
2020
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