From bcae81336764eb6c4cdf0f91e2fe632b625dd8b2 Mon Sep 17 00:00:00 2001
From: Prefetch
Date: Sun, 23 Oct 2022 22:18:11 +0200
Subject: Optimize and improve naming of all images in knowledge base

---
 source/know/concept/fabry-perot-cavity/index.md | 6 +++---
 1 file changed, 3 insertions(+), 3 deletions(-)

(limited to 'source/know/concept/fabry-perot-cavity/index.md')

diff --git a/source/know/concept/fabry-perot-cavity/index.md b/source/know/concept/fabry-perot-cavity/index.md
index 980fa54..6eefc6e 100644
--- a/source/know/concept/fabry-perot-cavity/index.md
+++ b/source/know/concept/fabry-perot-cavity/index.md
@@ -19,9 +19,8 @@ We divide the $$x$$-axis into three domains: left $$L$$, center $$C$$, and right
 The cavity $$C$$ has length $$\ell$$ and is centered on $$x = 0$$.
 Let $$n_L$$, $$n_C$$ and $$n_R$$ be the respective domains' refractive indices:
 
-<a href="cavity.png">
-<img src="cavity.png" style="width:70%">
-</a>
+{% include image.html file="sketch-full.png" width="70%" alt="Cavity structure" %}
+
 
 
 ## Microscopic cavity
@@ -129,6 +128,7 @@ $$A_1$$, $$A_2$$, $$A_3$$ or $$A_4$$ freely,
 and then the others are determined by $$k_m$$ and the field's continuity.
 
 
+
 ## Macroscopic cavity
 
 Next, consider a "macroscopic" Fabry-Pérot cavity
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