From 2482109b1f3758f1fa04cde2387e41375cbffc86 Mon Sep 17 00:00:00 2001 From: David Wright Date: Fri, 30 Aug 2024 21:38:54 -0700 Subject: [PATCH] fix(linting): fix linting in jeremy bio --- _pages/about_jeremy.md | 14 ++++++++------ 1 file changed, 8 insertions(+), 6 deletions(-) diff --git a/_pages/about_jeremy.md b/_pages/about_jeremy.md index 209d4c6..21bd65d 100644 --- a/_pages/about_jeremy.md +++ b/_pages/about_jeremy.md @@ -1,15 +1,17 @@ -# Jeremy Baier *(he/him)* - [https://jeremy-baier.github.io/](https://jeremy-baier.github.io/). +# Jeremy Baier _(he/him)_ - Jeremy is a 3rd year grad student at Oregon State University where he works with Dr. Hazboun on detector characterization and interstellar medium mitigation. Jeremy is currently co-leading the NANOGrav 15 year custom noise project. He is also interested in detector tuning and sensitivity forecasting. +[https://jeremy-baier.github.io/](https://jeremy-baier.github.io/). - Jeremy previously worked with Dr. Les Wade and Dr. Madeline Wade in the Kenyon College LIGO Lab on parameterized neutron star equation of state models and searches for gravitational wave scattering. +Jeremy is a 3rd year grad student at Oregon State University where he works with Dr. Hazboun on detector characterization and interstellar medium mitigation. Jeremy is currently co-leading the NANOGrav 15 year custom noise project. He is also interested in detector tuning and sensitivity forecasting. - When he is not in the office, Jeremy enjoys trail running in the OSU research forest and thinking about the pulsar term. +Jeremy previously worked with Dr. Les Wade and Dr. Madeline Wade in the Kenyon College LIGO Lab on parameterized neutron star equation of state models and searches for gravitational wave scattering. + +When he is not in the office, Jeremy enjoys trail running in the OSU research forest and thinking about the pulsar term. ## Education -B.A. Math and Physics Kenyon College (2022) +B.A. Math and Physics Kenyon College (2022) ## Research Interests + gravitational waves, pulsars, interstellar medium, detector characterization, SMBHBs