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html/BBbar.html

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 <p class="lead">You discovered the Oscillation of Neutral B Mesons.</p>
 <h5><b>The Oscillation of Neutral B mesons</b></h5>
-<img class="img-responsive" src="assets/info/BBbar.png" alt="A plot from one of the original publications" align="center">                                                                                                                                       
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 More information will come soon...
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html/CPV.html

@@ -12,7 +12,7 @@ It turned out that this is wrong, as was discovered by Cronin, Fitch et al. in 1
 <div class="row">
     <h5>CPV in the Kaon System</h5>
     <div class="col-md-3">
-        <img class="img-responsive" src="../assets/info/cpv.png" alt="A plot from the original publication">
+        <img class="img-responsive" src="assets/info/cpv.png" alt="A plot from the original publication">
     </div>
     <div class="col-md-3">
         <p>In 1964, Cronin, Fitch, et al. showed that CP symmetry is broken in the decay of the long-lived neutral K meson.</p>

html/H.html

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 <p class="lead">You discovered the Higgs-boson.</p>
 <h5><b>The Higgs boson</b></h5>
-<img class="img-responsive" src="assets/info/H.png" alt="A plot from one of the original publications" align="center">                                                                                                                                       
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 <p>
 More information will come soon...
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html/Jpsi.html

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 <p class="lead">You discovered the J/ψ meson!</p>
 <h5><b>The J/ψ meson</b></h5>
-<img class="img-responsive" src="../assets/info/jpsi.png" alt="A plot from one of the original publications" align="center">
+<img class="img-responsive" src="assets/info/jpsi.png" alt="A plot from one of the original publications" align="center">
 <p>
 The J/ψ is a meson consisting of a charm quark and its antiquark. It is the first excited state of the charmonium (a bound charm-anticharm state), and was discovered independently by two research groups in 1974: one at the Stanford Linear Accelerator Center, led by Burton Richter, and one at the Brookhaven National Laboratory, led by Samuel Ting of MIT. Richter and Ting were awarded the 1976 Nobel Prize in Physics for their shared discovery.
 </p>

html/antihydrogen.html

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 <p class="lead">You discovered Antihydrogen.</p>
 <h5><b>The antihidrogen</b></h5>
-<img class="img-responsive" src="assets/info/antihydrogen.png" alt="A plot from one of the original publications" align="center">           
 <p>
 More information will come soon...
 </p>

html/b.html

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 <p class="lead">You discovered the bottom quark!</p>
 
 <h5><b>The bottom (or beauty) quark</b></h5>
-<img class="img-responsive" src="../assets/info/b.png" alt="A plot from one of the original publications" align="center">
+<img class="img-responsive" src="assets/info/b.png" alt="A plot from one of the original publications" align="center">
 <br>
 <p>
 The bottom (or beauty) quark is a third-generation quark with a charge of &minus;&frac13;. It has a large mass (around 4.2 GeV/c<sup>2</sup> — more that four times the mass of a proton!). The bottom quark is notable because it is a product in almost all decays of the top quark and is a frequent decay product for the Higgs boson.

html/tau.html

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 <p class="lead">You discovered the τ lepton!</p>
 <h5><b>The τ lepton</b></h5>
-<img class="img-responsive" src="../assets/info/tau.png" alt="A plot from the original publication" align="right">
+<img class="img-responsive" src="assets/info/tau.png" alt="A plot from the original publication" align="right">
 <p>
 The τ (tau) is an elementary particle that can be thought of as a much heavier cousin of the electron, with a spin of &frac12;. It belongs to the family of leptons, along with the electron, the muon, and the three neutrinos. Despite the origin of the word lepton (meaning fine, small, thin) the τ is very massive at 1776.82 MeV/c<sup>2</sup>, which is nearly 3500 times the mass of the electron and around twice the mass of the proton.
 </p>

html/top.html

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 <p class="lead">You discovered the top quark!</p>
 <h5><b>The top quark</b></h5>
-<img class="img-responsive" src="../assets/info/t.png" alt="A proton and an antiproton annhilate to form a top-antitop pair" align="center">
+<img class="img-responsive" src="assets/info/t.png" alt="A proton and an antiproton annhilate to form a top-antitop pair" align="center">
 
 <p>
 At 174.2 GeV/c<sup>2</sup>, the top quark is the heaviest particle we know of. It belongs to the third generation of quarks and has a charge of &frac23;. As a result of its large mass, it decays (mostly into bottom quarks) almost instantly after it is produced. This behemoth does not form bound states with other quarks or antiquarks.

html/weak.html

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 <p class="lead">You discovered the W and Z bosons!</p>
 <h5><b>The weak force</b></h5>
-<img class="img-responsive" src="../assets/info/w.png" alt="A W&minus; boson produced in the transformation of a neutron into a proton" align="center">
+<img class="img-responsive" src="assets/info/w.png" alt="A W&minus; boson produced in the transformation of a neutron into a proton" align="center">
 <p>
 The weak interaction is a nuclear process that is responsible, among other things, for &beta; (beta) decay the transformation of neutrons into protons. The weak force is mediated by two bosons called the W and the Z. The W comes in two types: W<sup>+</sup> and W</sup>&minus;</sup>. The Z is neutral and is sometimes represented as Z<sup>0</sup>.
 </p>