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---
layout: default
---
<!-- Home -->
<div class="container pt-0">
<div class="row align-items-center">
<img src="assets/images/placeholder1.png" alt="..." class="img-fluid"/>
</div>
<div class="row g-0 text-center text-md-start">
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<div class="col-md-9">
<h2>Welcome to Petta Group</h2><br>
<p>Our research focuses on quantum control of nanometer scale systems. Semiconductor quantum dots are used to isolate single electron spins,
which exhibit long quantum coherence times. These systems allow quantum mechanics to be harnessed in a solid state environment for the
implementation of quantum gates. We use nanofabrication to create artificially structured systems with experimentally tunable Hamiltonians
that can be controlled on sub-nanosecond timescales. Recent research examines strong light-matter interactions in the circuit quantum
electrodynamics architecture, with a goal of generating long-range many body entanglement. Silicon and diamond are ideal host materials
for spin coherence, leading to spin coherence times that now approach 10 seconds. A major effort in the group consists of developing a
scalable quantum computing architecture in isotopically purified silicon. Research advances are enabled by a tight feedback loop that
links nanoscale materials synthesis and advanced transport measurements.</p>
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