.. _sphx_glr_content_examples_20-published:

In Publication
==============



.. raw:: html

    <div class="sphx-glr-thumbnails">

.. thumbnail-parent-div-open

.. raw:: html

    <div class="sphx-glr-thumbcontainer" tooltip="In this example, show 1D inversions of a single sounding from each of the RESOLVE and SkyTEM data sets. The original data can be downloaded from: https://storage.googleapis.com/simpeg/bookpurnong/bookpurnong.tar.gz">

.. only:: html

  .. image:: /content/examples/20-published/images/thumb/sphx_glr_plot_booky_1D_time_freq_inv_thumb.png
    :alt:

  :ref:`sphx_glr_content_examples_20-published_plot_booky_1D_time_freq_inv.py`

.. raw:: html

      <div class="sphx-glr-thumbnail-title">Heagy et al., 2017 1D RESOLVE and SkyTEM Bookpurnong Inversions</div>
    </div>


.. raw:: html

    <div class="sphx-glr-thumbcontainer" tooltip="In this example, perform a stitched 1D inversion of the Bookpurnong RESOLVE data. The original data can be downloaded from: https://storage.googleapis.com/simpeg/bookpurnong/bookpurnong.tar.gz">

.. only:: html

  .. image:: /content/examples/20-published/images/thumb/sphx_glr_plot_booky_1Dstitched_resolve_inv_thumb.png
    :alt:

  :ref:`sphx_glr_content_examples_20-published_plot_booky_1Dstitched_resolve_inv.py`

.. raw:: html

      <div class="sphx-glr-thumbnail-title">Heagy et al., 2017 1D RESOLVE Bookpurnong Inversion</div>
    </div>


.. raw:: html

    <div class="sphx-glr-thumbcontainer" tooltip="This example uses Self Consistent Effective Medium Theory to estimate the electrical conductivity of a mixture of two phases of materials. Given the electrical conductivity of each of the phases (\sigma_0, \sigma_1), the simpeg.maps.SelfConsistentEffectiveMedium map takes the concentration of phase-1 (\phi_1) and maps this to an electrical conductivity.">

.. only:: html

  .. image:: /content/examples/20-published/images/thumb/sphx_glr_plot_effective_medium_theory_thumb.png
    :alt:

  :ref:`sphx_glr_content_examples_20-published_plot_effective_medium_theory.py`

.. raw:: html

      <div class="sphx-glr-thumbnail-title">Effective Medium Theory Mapping</div>
    </div>


.. raw:: html

    <div class="sphx-glr-thumbcontainer" tooltip="Here, we use a primary-secondary approach to compute the sensitivity of an EM survey with respect to a parametric model of a block in a layered space.">

.. only:: html

  .. image:: /content/examples/20-published/images/thumb/sphx_glr_plot_heagyetal2017_casing_thumb.png
    :alt:

  :ref:`sphx_glr_content_examples_20-published_plot_heagyetal2017_casing.py`

.. raw:: html

      <div class="sphx-glr-thumbnail-title">Heagy et al., 2017 Casing Example</div>
    </div>


.. raw:: html

    <div class="sphx-glr-thumbcontainer" tooltip="Here, we perform a 1D inversion using both the frequency and time domain codes. The forward simulations are conducted on a cylindrically symmetric mesh. The source is a point magnetic dipole source.">

.. only:: html

  .. image:: /content/examples/20-published/images/thumb/sphx_glr_plot_heagyetal2017_cyl_inversions_thumb.png
    :alt:

  :ref:`sphx_glr_content_examples_20-published_plot_heagyetal2017_cyl_inversions.py`

.. raw:: html

      <div class="sphx-glr-thumbnail-title">Heagy et al., 2017 1D FDEM and TDEM inversions</div>
    </div>


.. raw:: html

    <div class="sphx-glr-thumbcontainer" tooltip="This notebook illustrates the SimPEG code used to invert Bouguer gravity data collected at Laguna del Maule volcanic field, Chile. Refer to Miller et al 2016 EPSL for full details.">

.. only:: html

  .. image:: /content/examples/20-published/images/thumb/sphx_glr_plot_laguna_del_maule_inversion_thumb.png
    :alt:

  :ref:`sphx_glr_content_examples_20-published_plot_laguna_del_maule_inversion.py`

.. raw:: html

      <div class="sphx-glr-thumbnail-title">PF: Gravity: Laguna del Maule Bouguer Gravity</div>
    </div>


.. raw:: html

    <div class="sphx-glr-thumbcontainer" tooltip="In this example, we load and plot the SkyTEM (2006) and RESOLVE (2008) Bookpurnong data, available at https://storage.googleapis.com/simpeg/bookpurnong/bookpurnong.tar.gz">

.. only:: html

  .. image:: /content/examples/20-published/images/thumb/sphx_glr_plot_load_booky_thumb.png
    :alt:

  :ref:`sphx_glr_content_examples_20-published_plot_load_booky.py`

.. raw:: html

      <div class="sphx-glr-thumbnail-title">Heagy et al., 2017 Load and Plot Bookpurnong Data</div>
    </div>


.. raw:: html

    <div class="sphx-glr-thumbcontainer" tooltip="There are two different forms of Richards equation that differ on how they deal with the non-linearity in the time-stepping term.">

.. only:: html

  .. image:: /content/examples/20-published/images/thumb/sphx_glr_plot_richards_celia1990_thumb.png
    :alt:

  :ref:`sphx_glr_content_examples_20-published_plot_richards_celia1990.py`

.. raw:: html

      <div class="sphx-glr-thumbnail-title">FLOW: Richards: 1D: Celia1990</div>
    </div>


.. raw:: html

    <div class="sphx-glr-thumbcontainer" tooltip="Here we create and run a FDEM forward simulation to calculate the vertical current inside a steel-cased. The model is based on the Schenkel and Morrison Casing Model, and the results are used in a 2016 SEG abstract by Yang et al.">

.. only:: html

  .. image:: /content/examples/20-published/images/thumb/sphx_glr_plot_schenkel_morrison_casing_thumb.png
    :alt:

  :ref:`sphx_glr_content_examples_20-published_plot_schenkel_morrison_casing.py`

.. raw:: html

      <div class="sphx-glr-thumbnail-title">EM: Schenkel and Morrison Casing Model</div>
    </div>


.. raw:: html

    <div class="sphx-glr-thumbcontainer" tooltip="Based on the SEG abstract Heagy, Cockett and Oldenburg, 2014.">

.. only:: html

  .. image:: /content/examples/20-published/images/thumb/sphx_glr_plot_tomo_joint_with_volume_thumb.png
    :alt:

  :ref:`sphx_glr_content_examples_20-published_plot_tomo_joint_with_volume.py`

.. raw:: html

      <div class="sphx-glr-thumbnail-title">Straight Ray with Volume Data Misfit Term</div>
    </div>


.. raw:: html

    <div class="sphx-glr-thumbcontainer" tooltip="Shows the water retention curve and the hydraulic conductivity function for a number of soil types.">

.. only:: html

  .. image:: /content/examples/20-published/images/thumb/sphx_glr_plot_vadose_vangenuchten_thumb.png
    :alt:

  :ref:`sphx_glr_content_examples_20-published_plot_vadose_vangenuchten.py`

.. raw:: html

      <div class="sphx-glr-thumbnail-title">FLOW: Vadose: van Genuchten</div>
    </div>


.. thumbnail-parent-div-close

.. raw:: html

    </div>


.. toctree::
   :hidden:

   /content/examples/20-published/plot_booky_1D_time_freq_inv
   /content/examples/20-published/plot_booky_1Dstitched_resolve_inv
   /content/examples/20-published/plot_effective_medium_theory
   /content/examples/20-published/plot_heagyetal2017_casing
   /content/examples/20-published/plot_heagyetal2017_cyl_inversions
   /content/examples/20-published/plot_laguna_del_maule_inversion
   /content/examples/20-published/plot_load_booky
   /content/examples/20-published/plot_richards_celia1990
   /content/examples/20-published/plot_schenkel_morrison_casing
   /content/examples/20-published/plot_tomo_joint_with_volume
   /content/examples/20-published/plot_vadose_vangenuchten