From: W. Trevor King <wking@tremily.us>
Date: Mon, 20 May 2013 13:06:30 +0000 (-0400)
Subject: apparatus/main.bib: Add specs for Olympus TR400PSA cantilevers
X-Git-Tag: v1.0~164
X-Git-Url: http://git.tremily.us/?a=commitdiff_plain;h=e22bdb0fad3957d77910f73c926138432a05aec8;p=thesis.git

apparatus/main.bib: Add specs for Olympus TR400PSA cantilevers
---

diff --git a/src/apparatus/main.bib b/src/apparatus/main.bib
index 4189185..dd41db2 100644
--- a/src/apparatus/main.bib
+++ b/src/apparatus/main.bib
@@ -3,7 +3,19 @@
   title = "Small Spring Constant Silicon Nitride Cantilevers",
   year = 2012,
   url = "http://probe.olympus-global.com/en/product/omcl_tr400psa_hw/",
-  note = "OMCL-TR400PSA",
+  note = "OMCL-TR400PSA.  From
+    \href{http://www.asylumresearch.com/Probe/TR400PSA,Olympus}{Asylum
+    Research}, the small cantilever has a spring constant
+    $\kappa=0.08(0.02-0.23)\U{N/m}$, a length of
+    $100(90-110)\U{$\mu$m}$, a width of $15(14-16)\U{$\mu$m}$, and a
+    thickness of $0.4(0.3-0.5)\U{$\mu$m}$.  The tip is a four-sided
+    pyramid with a height of $3.0\pm0.5\U{$\mu$m}$, a side angle of
+    $35\pm1\dg$, and a tip radius of $20\pm5\U{nm}$.  The cantilevers
+    are silicon nitride, with chromium and gold reflex coatings that
+    are $5$ and $30\U{nm}$ thick respectively.  From
+    \href{http://probe.olympus-global.com/en/product/omcl_tr400psa_hw/}{Olympus},
+    the resonant frequency of the small cantilever in water is around
+    $7\U{kHz}$.",
 }
 
 @misc{ athenaes-i27o,