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   The Quantum World
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  Quantum vs. Classical
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  Quantum Computing
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    What is Quantum Computing?
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    What is a Qubit?
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    How does Quantum Computing work?
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    Types of Quantum Computers
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    How to become a Quantum Scientist
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  Quantum  Programming
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    An Introduction to Quantum Programming
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   Tutorial A : Single Qubit Operations and Visualization of the Qubit State
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   Tutorial B: More Single Qubit Gates
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   Tutorial C: Multiple Qubit Operations and Quantum Circuits
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  Back Matter
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   <strong>
    Types of Quantum Computers
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                <h1>Types of Quantum Computers</h1>
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  <section class="tex2jax_ignore mathjax_ignore" id="types-of-quantum-computers">
<span id="cold-cold"></span><h1><strong>Types of Quantum Computers</strong><a class="headerlink" href="#types-of-quantum-computers" title="Permalink to this headline">¶</a></h1>
<p><img alt="quantumtypes" src="_images/coldatoms.png" /></p>
<aside class="margin sidebar">
<p class="sidebar-title"></p>
<p>Cold atoms in an optical lattice
Credit: Science Magazine</p>
</aside>
<p> </p>
<p>In the last section, we covered quite a lot by looking at what we need to make a quantum computer and the steps of quantum computation. In this section, we’ll look at different types of Quantum Computing and quantum computers.</p>
<section id="approaches-to-quantum-computing">
<h2>Approaches to Quantum Computing<a class="headerlink" href="#approaches-to-quantum-computing" title="Permalink to this headline">¶</a></h2>
<p>I will briefly mention here some <strong>approaches</strong> to Quantum Computing. We will not go into too much detail. <br>
An <em>approach</em> is simply a way to do computation on a quantum system. It is the way to manipulate, control and measure the quantum system. The two main approaches that one hears about a lot are: (1)  <strong>Gate-based Quantum Computing</strong> and (2)  <strong>Adiabatic Quantum Computing</strong>.</p>
<p>The <strong>Gate-based approach</strong> is very much similar to how we do classical computation, with the exception being that we use qubits instead of classical bits. Once we have our qubits, we apply our “gate operations” also known as our “circuit”.</p>
<p>The <strong>Adiabatic approach</strong> is less obvious, but relies on the <strong>Adiabatic theorem</strong> in Physics. The Adiabatic approach tells us to initialize our qubits in a particular <em>low-energy state</em> and then <strong>slowly</strong> apply changes to the qubits’ environment. We are still ‘doing things’ to the qubits but in a more precautious manner. The changes we are apply are related to a complex problem for which we want an answer. The idea is that if we bring about these changes slowly enough and in the right way, the qubits won’t “budge too much” energy-wise, and their final measured state most likely represents the lowest energy state of the complex problem. The Adiabatic approach is therefore very applicable to finding the best solution(s) to an <strong>Optimization</strong>-type problem.</p>
</section>
<section id="types-of-qubits">
<h2>Types of Qubits<a class="headerlink" href="#types-of-qubits" title="Permalink to this headline">¶</a></h2>
<p>Apart from the specific approach used by a Quantum computer, we can differentiate the types of quantum computers according to what are used as qubits. Here are some of the main ones:</p>
<ul class="simple">
<li><p><strong>Superconducting qubits</strong>: A small electronic circuit containing a <em>Josephson</em> junction (which is made by thin non-superconducting material placed between two superconducting materials). The circuit operates like an <em>artificial atom</em> where electromagnetic radiation can be used to drive transitions between two energy-level states.</p></li>
<li><p><strong>Photonic qubits</strong>: Quanta of light are called photons. Photonic qubits are therefore particles of light produced from a <em>coherent light source</em> (a laser).</p></li>
<li><p><strong>Cold atoms</strong> trapped in an optical lattice (interfering laser beams). <em>See <a class="reference internal" href="#cold-cold"><span class="std std-ref">Header Image</span></a></em>.</p></li>
<li><p><strong>Trapped Ions</strong>: “Charged atoms” that are controlled by electric and magnetic fields.<br />
 </p></li>
</ul>
</section>
<section id="what-do-quantum-computers-look-like">
<h2>What do Quantum Computers look like?<a class="headerlink" href="#what-do-quantum-computers-look-like" title="Permalink to this headline">¶</a></h2>
<p>This is what a quantum computer looks like!</p>
<div class="toggle docutils container">
<p>An IBM Quantum Computer
<img alt="ibmcomp" src="https://6lli539m39y3hpkelqsm3c2fg-wpengine.netdna-ssl.com/wp-content/uploads/2019/09/IBM-Quantum-Device-640x380.jpg" />
Credit: IBM</p>
</div>
<p> 
And here’s another one…</p>
<div class="toggle docutils container">
<p>A D-Wave Quantum Computer
<img alt="dwavecomputer" src="https://static.scientificamerican.com/sciam/cache/file/ABFCEF88-8ADE-4212-BE44ABB88792D119_source.jpg?w=590&amp;h=800&amp;E979DE21-21CD-4B2F-980E3DFB40CA082B" />
Credit: D-wave</p>
</div>
<p>Quantum computers are large devices made to keep qubits in a very cold and controlled environment in order to separate them from anything that can disturb them and make them lose their “quantumness”. <strong>The temperatures in a quantum computer can be colder than Outerspace!</strong>
The actual ‘qubits’ are located in a <strong>quantum chip</strong> also called a <strong>quantum processing unit (QPU)</strong> inside the computer. The chip is small enough to fit into the palm of your hand.<br />
 </p>
<p>Here are a couple quantum chips for you to look at.</p>
<div class="toggle docutils container">
<p><img alt="ibmchip" src="https://www.ibm.com/quantum-computing/_nuxt/img/16d424e.jpg" />
Credit: IBM</p>
<p><img alt="dwavechip" src="https://images.newscientist.com/wp-content/uploads/2015/08/dn28078-1_800.jpg" />
Credit: D-Wave</p>
</div>
</section>
<section id="which-companies-make-quantum-computers">
<h2>Which Companies Make Quantum Computers?<a class="headerlink" href="#which-companies-make-quantum-computers" title="Permalink to this headline">¶</a></h2>
<p>Companies that build quantum computers tend to specialize on using one particular approach to Quantum Computing and one type of qubit. Here are some Quantum Computing companies and the types of quantum computers they have:</p>
<ul class="simple">
<li><p><a class="reference external" href="https://www.ibm.com/quantum-computing/"><strong>IBM</strong></a> looks into Gate-based quantum computers and use <strong>superconducting qubits</strong>.</p></li>
<li><p><a class="reference external" href="https://quantumai.google/"><strong>Google</strong></a> also applies the Gate-based approach with <strong>superconducting qubits</strong>.</p></li>
<li><p><a class="reference external" href="https://www.xanadu.ai/"><strong>Xanadu</strong></a> makes <strong>photonic</strong> quantum computers with <em>squeezed light</em>. Below is a cool video on how their <strong>photonic chips</strong> work.</p></li>
</ul>
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<ul class="simple">
<li><p><a class="reference external" href="https://ionq.com/"><strong>IonQ</strong></a> uses ionized Ytterbium atoms (<strong>trapped ions</strong>) as qubits.</p></li>
<li><p><a class="reference external" href="https://www.dwavesys.com/"><strong>D-Wave</strong></a> uses the <strong>Adiabatic approach</strong> with <strong>superconducting qubits</strong>. Here’s a video on D-Wave’s Quantum Annealer.</p></li>
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<p> </p>
</section>
</section>
<section class="tex2jax_ignore mathjax_ignore" id="short-quiz">
<h1>Short Quiz<a class="headerlink" href="#short-quiz" title="Permalink to this headline">¶</a></h1>
<p><em>Try to answer the following questions on your own, then click to reveal.</em></p>
<p><em>What’s the name of the Quantum Computing approach that is suitable for optimization-type problems?</em></p>
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<p><strong>Adiabatic Quantum Computing</strong> relies on the Adiabatic theorem in Physics, which tells us that if we start off in a low-energy state for some simple problem and slowly evolve our environment to a more difficult problem, then our system will end-up in a low-energy state for the more difficult problem. This type of Quantum Computing is suitable for optimization problems.</p>
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<p><em>Which types of qubits are trapped between interfering laser beams?</em></p>
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<p>Cold atoms are trapped in the <em>wells</em> of an optical lattice. <em>See Header Image</em>.</p>
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<p><em>Which types of qubits can be controlled by electric and magnetic fields?</em></p>
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<p>Trapped ions! Ions are charged atoms and being charged means that they can be controlled with electric and magnetic fields.</p>
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<p><em>Which types of qubits behave like artificial atoms?</em></p>
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<p>Superconducting qubits are actually small electronic circuits made using a special circuit element called a <em>Josephson junction</em>. The circuit behaves like an artificial atom with different <strong>energy states</strong>. By using electromagnetic radiation, we can control the transitions between these states.</p>
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<p><em>Which types of qubits are particles of light?</em></p>
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<p>Photonic qubits! The word “photonic” is from “photon”, which is a particle of light.</p>
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