MAVEN Supra-Thermal And Thermal Ion Composition (STATIC) Particle Distributions. This collection contains files with time-ordered event rate data sorted into 12 rates x 64 energy bin arrays that are summed over multiple spins. Data are derived from APID d9. Description of the STATIC instrument can be found on the STATIC home page https://lasp.colorado.edu/maven/science/instrument-package/static/ and in the STATIC instrument publication https://doi.org/10.1007/s11214-015-0175-6.

This dataset contains the predicted prices of the asset Spins Club over the next 16 years. This data is calculated initially using a default 5 percent annual growth rate, and after page load, it features a sliding scale component where the user can then further adjust the growth rate to their own positive or negative projections. The maximum positive adjustable growth rate is 100 percent, and the minimum adjustable growth rate is -100 percent.

MAVEN STATIC Event Rate: 12 Rate Channels Summed Over Multiple Spins Data Collection

'Laser-written waveguide-integrated coherent spins in diamond' dataThe dataset includes excel files with the raw data for each figure in the manuscript. The filename of the files points towards each labelled subplot in each figure and the necessary description.Figure 1 is photoluminescence (PL) studies of laser-written waveguide integrated nitrogen-vacancy centers (WGINVs). (a) PL map of WGINV A in type IIa diamond from the z-direction (overhead). It includes x-y and x-z planes with the resolution of 250 nm and PL rate unit of kHz, and x, y, z slices from PL maps. (b) The emission spectrum of single WGINV A and ensemble NVs. (c) The photon emission correlation of single WGINV A. (d) The power-dependent PL rate for single WGINV A. (e) PL map of WGINVs in type Ib diamond from the z-direction (overhead). It includes x-y and x-z planes with the resolution of 250 nm and PL rate unit of Hz, and x, y, z slices from PL maps. (f) PL map of the WGINVs in type Ib diamond mapped from the y-direction (along the waveguide). It includes x-y and x-z planes with the resolution of 250 nm and PL rate unit of kHz, and x, z slices from PL map. Figure 2 is optically detected magnetic resonance (ODMR) spectra of single WGINVs and ensemble WGINVs.(a) includes continuous wave (CW) and pulse zero-field ODMR for single WGINV A. (b) includes CW and pulse ODMR with applied magnetic field for single WGINV A. (c) includes CW and pulse zero-field ODMR for single WGINV B.(d) includes CW and pulse ODMR with applied magnetic field for single WGINV B. (e) is the zero-field ODMR for ensemble WGINVs(f) is CW ODMR with applied magnetic field for ensemble WGINVs.Figure 3 is the time domain ODMR spectrum of single WGINVs in type IIa diamond (from (a) to (h)) and ensemble WGINVs in type Ib diamond (from (i) to (l)). (a), (b), (c), and (d) are Rabi, free induced decay (FID), Hahn echo, and relaxometry measurements for single WGINV A. (e), (f), (g), and (h) are Rabi, FID, Hahn echo, and relaxometry measurements for single WGINV B. (i), (j), (k), and (l) are Rabi, free induced decay (FID), Hahn echo, and relaxometry measurements for ensemble WGINVs. Figure 4 is an illustration figure, and does not contain any raw data to be included as part of this data repository.Figure 5 is high-resolution confocal normalized PL image of single WGINVs A in type IIa diamond. It includes the PL maps from x-y plane and x-z plane with the resolution of 50 nm, and the x, y, z slices from PL maps.Figure 6 is Rabi oscillations for single WGINV A (a) and single WGINV B (b) at weak MW power.Reserach results based upon these data are published at https://doi.org/10.1063/5.0209294

Dataset underlying the article "Loophole-free Bell-inequality violation using electron spins separated by 1.3 kilometres", published online in Nature (2015), doi:10.1038/nature15759 [Notes: Present address H. Bernien: Department of Physics, Harvard University, Cambridge, Massachusetts 02138, USA; Correspondence R. Hanson to: R.Hanson@tudelft.nl]

Figure, data and code for Electron spins interaction in the spin-Peierls phase of the organic spin chain (o -DMTTF)2X (X = Cl, Br, I)

Data corresponding to the figures of the publication "All-optical control of long-lived nuclear spins in rare-earth doped nanoparticles" by D. Serrano et al. (https://www.nature.com/articles/s41467-018-04509-w). A text file describes data in each compressed folder, please refer to the publication for more details.

Sweet Spins Export Import Data. Follow the Eximpedia platform for HS code, importer-exporter records, and customs shipment details.

Blockchain data query: Slotmachine spins

Data repository for: Microwave spectroscopy of interacting Andreev spins

Andreev bound states are fermionic states localized in weak links between superconductors which can be occupied with spinful quasiparticles. Microwave experiments using superconducting circuits with InAs/Al nanowire Josephson junctions have recently enabled probing and coherent manipulation of Andreev states but have remained limited to zero or small magnetic fields. Here we use a flux-tunable superconducting circuit compatible in magnetic fields up to 1T to perform spectroscopy of spin-polarized Andreev states up to ∼ 250 mT, beyond which the spectrum becomes gapless. We identify singlet and triplet states of two quasiparticles occupying different Andreev states through their dispersion in magnetic field. These states are split by exchange interaction and couple via spinorbit coupling, analogously to two-electron states in quantum dots. We also show that the magnetic field allows to drive a direct spin-flip transition of a single quasiparticle trapped in the junction. Finally, we measure a gate- and field-dependent anomalous phase shift of the Andreev spectrum, of magnitude up to ∼ 0.7π. Our observations demonstrate new ways to manipulate Andreev states in a magnetic field and reveal spin-polarized triplet states that carry supercurrent.

README CONTENTS (also included in the .ZIP)

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# Data repository for: Microwave spectroscopy of interacting Andreev spins

Manuscript located at https://arxiv.org/abs/2208.11198

Authors: J. J. Wesdorp, F. J. Matute-Caňadas, A. Vaartjes, L. Grünhaupt, T. Laeven, S. Roelofs, L. J. Splitthoff, M. Pita-Vidal, A. Bargerbos, D. J. van Woerkom, P. Krogstrup, L. P. Kouwenhoven, C. K. Andersen, A. Levy Yeyati, B. van Heck, G. de Lange

This is a self-contained repository with the code that analyses the raw data (exported to .nc format).

Required packages are:

* matplotlib

* xarray

* h5py

* h5netcdf

* lmfit

* scipy

* numpy

* jupyter-notebook

* jupyter_contrib_nbextensions (recommended to see the table of content per notebook)

* imageio (for gif generation)

* qcodes (only for the notebook qcodes to xarray conversion, the rest of the code is qcodes independent).

An environment.yaml file is provided for conda based installations. The exact versions are denoted there.

Folder structure:

- ./ : The top level folder contains the analysis notebooks that were used to process the data and fit to the minimal theoretical model. The Figures.ipynb contains the figure generation code and can be run standalone.

- data : All data files used to generate the figures in the paper. The data is stored in netcdf format with h5netcdf as engine for loading with xarray.

- data/processing is where intermediate analysis results are stored

- data/processing/phi_0 analysis tool/verification_gifs : The GIF are stored here that show the phi_0 two tone data with traced minima/maxima for verification.

- img : The raw output (separate panels) of the figure generation code is stored in the img folder

- lib: custom code used for analysis and plotting of the data

- kwant_simulation : code used for simulating and generating the figures the non-interacting model used for figure S19-S22.

- kwant_simulation/data : simulation output of the kwant simulations.

One dataset (20201109_1372_parity_selection.nc) for figure S11 is added as a separate file and should be copied to the data folder because of its large file size. This allows for a direct preview of the rest of the repository in the 4TU repository.

Datasets to reproduce all plots in the paper. Each spreadsheet contains the horizontal and vertical data of a subfigure. The research investigates high order correlations in the output of the sensor which allows to distinguish different types of noise.

ARGONNE POLARIZED BEAM, POLARIZED TARGET. AT PT**2 = 0.5 GEV**2 RECOIL SPIN ALSO MEASURED. NUMERICAL VALUES OF DATA ON FIGURES SUPPLIED BY R. C. FERNOW.

Data supporting figures 3 and 4 of the related publication.

Simulation of a black-hole binary system evolved by the SpEC code.

An asymmetrical 2D Ising model with a zigzag surface, created by diagonally cutting a regular square lattice, has been developed to investigate the thermodynamics and phase transitions on surface by the methodology of recursive lattice, which we have previously applied to study polymers near a surface. The model retains the advantages of simple formulation and exact calculation of the conventional Bethe-like lattices. An antiferromagnetic Ising model is solved on the surface of this lattice to evaluate thermal properties such as free energy, energy density and entropy, from which we have successfully identified a first order order-disorder transition other than the spontaneous magnetization, and a secondary transition on the supercooled state indicated by the Kauzmann paradox.

Simulation of a black-hole binary system evolved by the SpEC code.

One dataset for each Research Chapter of the dissertation:

1. Photoluminescence maps of doped tungsten disulfide mono- and bilayers (Chapter 3)
2. Nitrogen vacancy center electron spin resonance measurements of stray fields of Van der Waals interlayer antiferromagnet CrSBr. (Chapter 4)
3. Nitrogen vacancy center electron spin resonance measurements of spin waves in a magnet-superconductor heterostructure. (Chapter 5)

All data are .txt files and columns are labeled with quantities and units. See the file "README.txt" for more information.

This is the dataset that belongs to the experiment described in the article "Loophole-free Bell test using electron spins in diamond: second experiment and additional analysis", online preprint at arXiv:1603.05705

[Correspondence R. Hanson to: R.Hanson@tudelft.nl]

This collection is an archive of the data I obtained during the Master Thesis Project, Quantum Control on Interacting Spins.

This dataset contains numerical simulation results obtained from Monte-Carlo methods, stored in an array of files in .csv format, named by hash strings of corresponding simulation. Relevant information of corresponding simulation, such like parameter settings and descriptions of tasks, are stored in the .siminfo files named with the same hash strings. These files are all generated automatically by program, encoded in text format and and be opened with any text editor.

The scripts/notebooks for data generating and processing is given in the Simulations.zip.

Blockchain data query: Average Spins