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-  {
-    "title": "Secondary ice growth mechanism for ice nuclei in the atmosphere",
-    "authors": [
-      "M. Bostr\u00f6m",
-      "Y. Li",
-      "I. Brevik",
-      "C. Persson",
-      "S. Carretero-Palacios",
-      "O. I. Malyi"
-    ],
-    "abstract": "The study of atmospheric ice nuclei is vital for understanding the formation of precipitation and the development of cloud systems as it reveals how these tiny particles grow. A mechanism of such growth when the nuclei are in a mixed ice/water phase and quantum vacuum fluctuation-induced Casimir-Lifshitz interaction highlights the complexity and interconnection of the atmospheric processes with quantum theory. Initially of the order of $0.1\\sim10\\rm\\mu m$ in size, atmospheric ice nuclei can expand by the accumulation of water molecules from the surrounding water vapor.",
-    "arxiv_id": "2303.05239v1",
-    "categories": [
-      "cond-mat.mtrl-sci",
-      "cond-mat.stat-mech",
-      "hep-th"
-    ],
-    "primary_category": "cond-mat.mtrl-sci",
-    "published_date": "2023-03-09T13:22:13Z",
-    "updated_date": "2023-03-09T13:22:13Z",
-    "pdf_url": "https://arxiv.org/pdf/2303.05239v1",
-    "local_pdf_path": "data\\arxiv\\pdfs\\materials\\2303.05239v1.pdf",
-    "comment": "",
-    "journal_ref": "",
-    "doi": ""
-  },
-  {
-    "title": "Controlling the magnetic state of the proximate quantum spin liquid   $\u03b1$-RuCl$_3$ with an optical cavity",
-    "authors": [
-      "Emil Vinas Bostr\u00f6m",
-      "Adithya Sriram",
-      "Martin Claassen",
-      "Angel Rubio"
-    ],
-    "abstract": "Harnessing the enhanced light-matter coupling and quantum vacuum fluctuations resulting from mode volume compression in optical cavities is a promising route towards functionalizing quantum materials and realizing exotic states of matter. Here, we extend cavity quantum electrodynamical materials engineering to correlated magnetic systems, by demonstrating that a Fabry-P\\'erot cavity can be used to control the magnetic state of the proximate quantum spin liquid $\\alpha$-RuCl$_3$. Depending on specific cavity properties such as the mode frequency, photon occupation, and strength of the light-matter coupling, any of the magnetic phases supported by the extended Kitaev model can be stabilized. In particular, in the THz regime, we show that the cavity vacuum fluctuations alone are sufficient to bring $\\alpha$-RuCl$_3$ from a zigzag antiferromagnetic to a ferromagnetic state. By external pumping of the cavity in the few photon limit, it is further possible to push the system into the antiferromagnetic Kitaev quantum spin liquid state.",
-    "arxiv_id": "2211.07247v1",
-    "categories": [
-      "cond-mat.str-el",
-      "cond-mat.mtrl-sci",
-      "physics.optics"
-    ],
-    "primary_category": "cond-mat.str-el",
-    "published_date": "2022-11-14T10:04:47Z",
-    "updated_date": "2022-11-14T10:04:47Z",
-    "pdf_url": "https://arxiv.org/pdf/2211.07247v1",
-    "local_pdf_path": "data\\arxiv\\pdfs\\materials\\2211.07247v1.pdf",
-    "comment": "",
-    "journal_ref": "",
-    "doi": ""
-  },
-  {
-    "title": "Boundary-induced effect encoded in the corrections to the geometric   phase acquired by a bipartite two-level system",
-    "authors": [
-      "Ludmila Viotti",
-      "Fernando C. Lombardo",
-      "Paula I. Villar"
-    ],
-    "abstract": "We present a bipartite two-level system coupled to electromagnetic quantum vacuum fluctuations through a general dipolar coupling. We derive the master equation in the framework of open quantum systems, assuming an environment composed of (i) solely vacuum fluctuations and (ii) the vacuum fluctuations and a conducting plate located at a fixed distance from the bipartite system. For both cases considered, we study the dynamics of the bipartite system and the temporal evolution of the concurrence of an initial entangled bipartite state. We further analyze the generation of entanglement due to the vacuum structure. Finally, we study the different induced contributions to the correction of the unitary geometric phase of a bipartite quantum state so as to explore the possibility of future experimental setups by considering the influence of boundaries conditions in vacuum",
-    "arxiv_id": "1910.10585v2",
-    "categories": [
-      "quant-ph",
-      "cond-mat.other"
-    ],
-    "primary_category": "quant-ph",
-    "published_date": "2019-10-23T14:37:56Z",
-    "updated_date": "2020-03-10T17:20:35Z",
-    "pdf_url": "https://arxiv.org/pdf/1910.10585v2",
-    "local_pdf_path": "data\\arxiv\\pdfs\\materials\\1910.10585v2.pdf",
-    "comment": "",
-    "journal_ref": "",
-    "doi": ""
-  },
-  {
-    "title": "The Casimir Atomic Pendulum",
-    "authors": [
-      "H. Razmi",
-      "M. Abdollahi"
-    ],
-    "abstract": "We want to introduce an atomic pendulum whose driving force (torque) is due to the quantum vacuum fluctuations. Applying the well-known Casimir-Polder effect to a special configuration (a combined structure of an atomic nanostring and a conducting plate), an atomic pendulum (Casimir atomic pendulum) is designed. Using practically acceptable data corresponding to the already known world of nanotechnology and based on reasonable/reliable numerical estimates, the period of oscillation for the pendulum is computed. This pendulum can be considered as both a new Micro (Nano)-Eelectromechanical system and a new simple vacuum machine. Its design may be considered as a first step towards realizing the visualized vacuum (Casimir) clock!",
-    "arxiv_id": "1308.0004v1",
-    "categories": [
-      "quant-ph",
-      "cond-mat.other"
-    ],
-    "primary_category": "quant-ph",
-    "published_date": "2013-07-31T13:32:01Z",
-    "updated_date": "2013-07-31T13:32:01Z",
-    "pdf_url": "https://arxiv.org/pdf/1308.0004v1",
-    "local_pdf_path": "data\\arxiv\\pdfs\\materials\\1308.0004v1.pdf",
-    "comment": "",
-    "journal_ref": "",
-    "doi": ""
-  },
-  {
-    "title": "Permanently rotating devices: extracting rotation from quantum vacuum   fluctuations?",
-    "authors": [
-      "M. N. Chernodub"
-    ],
-    "abstract": "We propose a set of devices of simple geometrical design which may exhibit a permanent rotation due to quantum (vacuum) fluctuations. These objects - which have no moving parts - impose certain boundary conditions on quantum fluctuations thus affecting their vacuum energy similarly to the standard Casimir effect. The boundary conditions are chosen in such a way that the vacuum energy for a static device is larger compared to the energy of the vacuum fluctuations in a state when the device rotates about a certain axis. The optimal frequency of rotation is determined by geometry and moment of inertia of the device. We illustrate our ideas in a vacuum of a massless scalar field theory using simplest Dirichlet-type boundary conditions. We also propose an experimental setup to verify the existence of the rotational vacuum effect.",
-    "arxiv_id": "1203.6588v1",
-    "categories": [
-      "quant-ph",
-      "cond-mat.other",
-      "hep-th"
-    ],
-    "primary_category": "quant-ph",
-    "published_date": "2012-03-29T16:50:07Z",
-    "updated_date": "2012-03-29T16:50:07Z",
-    "pdf_url": "https://arxiv.org/pdf/1203.6588v1",
-    "local_pdf_path": "data\\arxiv\\pdfs\\materials\\1203.6588v1.pdf",
-    "comment": "",
-    "journal_ref": "",
-    "doi": ""
-  },
-  {
-    "title": "Vacuum fluctuations and the spin current in mesoscopic structures with   collinear magnetic order",
-    "authors": [
-      "Vitalii K. Dugaev",
-      "Patrick Bruno"
-    ],
-    "abstract": "We show that in magnetic nanostructures with a homogeneous magnetic order, the equilibrium spin current can be nonzero. For example, this is the case of a wide magnetic ring with the magnetization along the ring axis. The physical reason of this effect is a variation of the orientation of anisotropy axis inducing a spin torque acting on the magnetic ions. The mechanism of the spin current generation is related to the quantum vacuum fluctuations in the magnetic system.",
-    "arxiv_id": "0702168v2",
-    "categories": [
-      "cond-mat.mtrl-sci"
-    ],
-    "primary_category": "cond-mat.mtrl-sci",
-    "published_date": "2007-02-07T10:30:39Z",
-    "updated_date": "2007-05-02T15:16:29Z",
-    "pdf_url": "https://arxiv.org/pdf/0702168v2",
-    "local_pdf_path": null,
-    "comment": "",
-    "journal_ref": "",
-    "doi": ""
-  }
-]
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