easier publications page and no longer use location

Author: tomchor

_config.yml

@@ -113,9 +113,9 @@ analytics:
 # Author information
 author:
   name             : "Tomás L. Chor"
-  avatar           : "assets/images/TChor-02p_UCLA_cropped.jpg"
+  avatar           : "/assets/images/TChor-02p_UCLA_cropped.jpg"
   bio              : "<br>"
-  location         : "Los Angeles,\n\nmaybe São Paulo"
+#  location         : "Los Angeles | São Paulo"
   email            : #"[email protected]"
   links:
     - label: "Email"

_pages/publications.md

@@ -15,7 +15,39 @@ page](https://scholar.google.com/citations?user=0uQC6kkAAAAJ&hl=en&oi=ao>)
 Selected publications
 ---------------------
 
-{% include pubpage.html %}
+Chor, Tomas, Jacob Wenegrat. 2024. "The turbulent dynamics of anticyclonic submesoscale headland
+wakes." Journal of Physical Oceanography.  [[Pre-print
+here](/assets/pdf/chor.wenegrat2024preprint--headland.pdf)]
 
+Chor, Tomas, Jacob Wenegrat, and John Taylor. 2022. "Insights into the Mixing Efficiency of
+Submesoscale Centrifugal-Symmetric Instabilities." Journal of Physical Oceanography.
+https://doi.org/10.1175/JPO-D-21-0259.1. [[PDF here](/assets/pdf/chor.ea2022--insights-into-the-mixing-efficiency.pdf)]
+
+Chor, Tomas, James C. McWilliams, and Marcelo Chamecki. 2021. "Modifications to the K-Profile
+Parameterization with Nondiffusive Fluxes for Langmuir Turbulence." Journal of Physical
+Oceanography. https://doi.org/10.1175/JPO-D-20-0250.1 [[PDF here](/assets/pdf/chor.ea2021--modifications.to.kpp.pdf)]
+
+Chor, Tomas, James C. McWilliams, and Marcelo Chamecki. 2020. "Diffusive–Nondiffusive Flux
+Decompositions in Atmospheric Boundary Layers." Journal of the Atmospheric Sciences 77 (10):
+3479–94. https://doi.org/10.1175/JAS-D-20-0093.1 [[PDF here](/assets/pdf/chor.ea2020a--diffusive.nondiffusive.decompositions.pdf)]
+
+Chamecki, Marcelo, Tomas Chor, Di Yang, and Charles Meneveau. 2019. "Material Transport in the Ocean
+Mixed Layer: Recent Developments Enabled by Large Eddy Simulations." Reviews of Geophysics.
+https://doi.org/10.1029/2019RG000655 [[PDF here](/assets/pdf/chamecki.ea2019--material.transport.pdf)]
+
+Chor, Tomas, Ailín Ruiz de Zárate, and Nelson L. Dias. 2019. "A generalized series solution for the
+Boussinesq equation with constant boundary conditions." Water Resources Research.
+https://doi.org/10.1029/2018WR024154 [[PDF here](/assets/pdf/chor.ea2019--a.generalized-series.pdf)]
+
+Dias-Júnior, Cléo Quaresma, ..., Tomas Chor, and Antonio Manzi. 2019. "Is There a Classical Inertial
+Sublayer over the Amazon Forest?" Geophysical Research Letters.
+https://doi.org/10.1029/2019GL083237 [[PDF here](/assets/pdf/diasjunior2019--is.there.pdf)]
+
+Chor, Tomas, Di Yang, Charles Meneveau, and Marcelo Chamecki. 2018. "A Turbulence Velocity Scale for
+Predicting the Fate of Buoyant Materials in the Oceanic Mixed Layer." Geophysical Research Letters.
+https://doi.org/10.1029/2018GL080296 [[PDF here](/assets/pdf/chor.ea2018--a.turbulence.velocity.scale.pdf)]
+
+Chor, Tomás, Di Yang, Charles Meneveau, and Marcelo Chamecki. 2018. "Preferential Concentration of
+Noninertial Buoyant Particles in the Ocean Mixed Layer Under Free Convection." Phys. Rev. Fluids. https://doi.org/10.1103/PhysRevFluids.3.064501 [[PDF here](/assets/pdf/chor.ea2018--preferential.concentration.pdf)]
 
 

_pages/research.md

@@ -6,19 +6,19 @@ permalink: /research/
 ---
 
 
-*Overview:* I have started my career doing theoretical and field work in my Undergrad and Master's
+I started my career doing theoretical and field work in my Undergrad and Master's
 education, and progresssed torwards numerical research in my PhD. I've worked on Hydrology,
 Atmospheric turbulence (boundary layer meteorology) and Oceanic flows (submesoscale phenomena and
-boundary layer processes). Currently my research is mainly based on numerical tools such as [Large
-eddy simulations](https://en.wikipedia.org/wiki/Large_eddy_simulation).
+boundary layer processes). Currently my research lies in the intersection between numerical tools
+such as [Large eddy simulations](https://en.wikipedia.org/wiki/Large_eddy_simulation) and physical
+oceanography.
 
 
 
 
 ## Submesoscale instabilities in the ocean bottom boundary layer
 
-
-![Headland paper](/assets/images/PV_bathymetry_R1F008.png)
+<video autoplay muted loop src="/assets/animations/bathymetry_3d_PV_NPN-R1F008-f2.mp4" width="100%" controls></video>
 
 I use Large-eddy simulations to investigate the impact of submesoscale dynamics in bottom boundary
 layer flows. I've given specific focus to Centrifugal-Symmetric instabilities, which are thought to
@@ -34,7 +34,7 @@ You can find relevant publications
 
 ## Vertical mixing of materials in the upper ocean
 
-![GRL paper](/assets/images/GRL2019-panels.png)
+<video autoplay muted loop src="/assets/animations/anim_panels_long.mp4" width="100%" controls></video>
 
 I use Large-eddy simulations to explore small
 scale turbulence in the Oceanic mixed layer. Focus is given to the transport of passive scalars