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Wunderkind at Mac App Store analyse

App power index: 100 (based on ranks around App Stores today)
Education
Developer: Gordon Lister
Price: 0 free
Current version: 3.3.7, last update: 3 days ago
First release : 14 Jun 2020
App size: 0 Bytes
4.0 ( 0 ratings )
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Estimation application downloads and cost

> 2.2k
Monthly downloads
~ $ 900
Estimation App Cost


Description

Wunderkind is one of the family of three MacOS programs that can be used for the analysis of data from furnace step-heating ultra-high-vacuum diffusion experiments conducted in conjunction with argon geochronology. Data from the mass spectrometer is loaded in one of a number of XML-tagged data formats from different laboratories around the world, and processed using the eArgon program. Wunderkind allows conjoint inversion of that data to obtain the relevant diffusion parameters. Finally the output (in an XML format intended to become the industry standard) can be taken up by MacArgon, and used to forward model, or to perform a Monte Carlo inversion, in order to obtain pressure-temperature-time (P-T-t) histories that are capable of simulating the observed age spectra.

Wunderkind §2 uses multicore technology for inversion of data from ultra-high-vacuum temperature-controlled step-heating 39Ar diffusion experiments using Monte Carlo methods. A seed estimate is provided, and then Wunderkind attempts to climb towards a better fit. These calculations can continue sometimes for many days in succession, intelligently monitoring the time between successful iterations, adjusting the range of scattering to suit. Plots of can be made showing the fractal dimensions of the inferred diffusion domains. The inversion process can be restarted from solutions stored previously in the sandbox.

Version §3 allows estimates as to the effect of prior loss of 39Ar, either during neutron irradiation in the reactor core, or during protracted warming to clean a sample of extraneous 40Ar. Interactive simulations allows the option to correct for the effect of this loss of 39Ar prior to measurement.

A correction can be made for the percentage of 39Ar lost prior to measurement (either by recoil during neutron irradiation, or during cleaning to rid the sample of unwanted gas in fast diffusion pathways). An XML tag records the state of the checkbox in the Arrhenius plot window, and the value of the assumed percentage recoil used to make the correction.
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Application availability

Available in countries
Country Price
Canada 349 CAD
China 1698 CNY
France 300 EUR
Germany 300 EUR
Italy 300 EUR
Netherlands 300 EUR
Portugal 300 EUR
Spain 300 EUR
UK 250 GBP
India 24900 INR
Japan 40000 JPY
Korea, Republic Of 349000 KRW
Poland 1299.99 PLN
Russia 22990 RUB
Turkey 9999.99 TRY
USA 250 USD
Ukraine 300 USD
Available for devices
MacDesktop,

Versions and releases

Latest version Wunderkind: 3.3.7

Version §3.3 introduces background information and improves the interface. Version §3.3.0 adjusts use of the prior loss parameter for 39Ar. Version §3.3.1 addresses some issues in respect to display after performing the recoil correction. Version §3.3.3 accelerates the Monte Carlo process when it is achieving success. Version §3.3.4 corrects an issue when calculating closure temperature for various iterations in a defined fractal diffusion domain. Version §3.3.7 corrects an issue to do wth the display of an age plot.

Apps Changes History:
  • 3 days ago: New App Version 3.3.3 ☛ 3.3.7
  • New App Version 449.99 -> 0
  • 5 months ago: New App Version 3.2.5 ☛ 3.3.3