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This shows you the differences between two versions of the page.

--- members:jroland [2020/08/26 09:45]
jroland [Publications]
+++ members:jroland [2021/09/22 14:27]
jroland [Teaching]
@@ Line 6: / Line 6: @@
 | style="width:159px;" rowspan="4" | <box w=150px border left>{{members:jroland-quic.jpg?nolink&150}}</box>
 ! style="width:50px;"| Email:
-| style="width:541px;"| jroland (at) ulb.ac.be
+| style="width:541px;"| Jeremie.Roland (at) ulb.be
 |-
 ! Phone:
@@ Line 42: / Line 42: @@
 ==== Teaching ====
-  * Compléments de programmation et d'algorithmique (INFO-H-304)
+  * Since 2021 Analyse II (MATH-H-2000) - partim: part b
-  * Quantum information and computation (INFO-H-514) - partim: Quantum computation
+  * Since 2015 Information, Coding, Computing and Complexity Theory (INFO-H-422) - partim: Computing and Complexity Theory
-  * Information, Coding, Computing and Complexity Theory (INFO-H-422) - partim: Complexity Theory
+  * Since 2013 Compléments de programmation et d'algorithmique (INFO-H-304)
-  * Analyse complexe et calcul numérique (MATH-H-302) - partim: Analyse complexe
+  * Since 2012 Quantum information and computation (INFO-H-514) - partim: Quantum computation
-  * Signaux et Systèmes (MATH-H-3001) - partim: Exercices
+  * Since 2012 Examen spécial d'admission en Polytechnique - Géométrie
-  * Examen spécial d'admission en Polytechnique - Géométrie
+  * 2016-2021 Signaux et Systèmes (MATH-H-3001) - partim: Exercices
+  * 2015-2021 Analyse complexe et calcul numérique (MATH-H-302) - partim: Analyse complexe
 ==== Research interests ====
   * Quantum algorithms
@@ Line 75: / Line 78: @@
 ==== Publications ====
 <html>
@@ Line 87: / Line 91: @@
 <tr valign="top">
 <td align="right" class="bibtexnumber">
-[<a name="CLR20a">1</a>]
+[<a name="ARV21">1</a>]
 </td>
 <td class="bibtexitem">
-Shantanav Chakraborty, Kyle Luh, and J&eacute;r&eacute;mie Roland.
+Atul&nbsp;Singh Arora, J&eacute;r&eacute;mie Roland, and Chrysoula Vlachou.
- Analog quantum algorithms for the mixing of markov chains.
+ Analytic quantum weak coin flipping protocols with arbitrarily small
- <em>Physical Review A</em>, 102:022423, 2020.
+  bias.
-[&nbsp;<a href="http://dx.doi.org/10.1103/PhysRevA.102.022423">DOI</a>&nbsp;|
+ In <em>Proceedings of the 2021 ACM-SIAM Symposium on Discrete
-<a href="http://arxiv.org/abs/1904.11895">arXiv</a>&nbsp;]
+  Algorithms (SODA)</em>, pages 919-938, 2021.
+[&nbsp;<a href="http://dx.doi.org/10.1137/1.9781611976465.58">DOI</a>&nbsp;|
+<a href="http://arxiv.org/abs/1911.13283">arXiv</a>&nbsp;]
 </td>
@@ Line 102: / Line 108: @@
 <tr valign="top">
 <td align="right" class="bibtexnumber">
-[<a name="BAKR20">2</a>]
+[<a name="CNR20b">2</a>]
 </td>
 <td class="bibtexitem">
-Kishor Bharti, Atul&nbsp;Singh Arora, Leong&nbsp;Chuan Kwek, and J&eacute;r&eacute;mie Roland.
+Shantanav Chakraborty, Leonardo Novo, and J&eacute;r&eacute;mie Roland.
- Uniqueness of all fundamental noncontextuality inequalities.
+ Optimality of spatial search via continuous-time quantum walks.
- <em>Physical Review Research</em>, 2:033010, 2020.
+ <em>Phys. Rev. A</em>, 102:032214, 2020.
-[&nbsp;<a href="http://dx.doi.org/10.1103/PhysRevResearch.2.033010">DOI</a>&nbsp;|
+[&nbsp;<a href="http://dx.doi.org/10.1103/PhysRevA.102.032214">DOI</a>&nbsp;|
-<a href="http://arxiv.org/abs/1811.05294">arXiv</a>&nbsp;]
+<a href="http://arxiv.org/abs/2004.12686">arXiv</a>&nbsp;]
 </td>
@@ Line 117: / Line 123: @@
 <tr valign="top">
 <td align="right" class="bibtexnumber">
-[<a name="CNR20">3</a>]
+[<a name="CNR20a">3</a>]
 </td>
 <td class="bibtexitem">
-Shantanav Chakraborty, Leonardo Novo, and Jérémie Roland.
+Shantanav Chakraborty, Leonardo Novo, and J&eacute;r&eacute;mie Roland.
- On the optimality of spatial search by continuous-time quantum walk.
+ Finding a marked node on any graph via continuous-time quantum walks.
- <em>arXiv e-prints</em>, arXiv:2004.12686, 2020.
+ <em>Phys. Rev. A</em>, 102:022227, 2020.
-[&nbsp;<a href="http://arxiv.org/abs/2004.12686">arXiv</a>&nbsp;]
+[&nbsp;<a href="http://dx.doi.org/10.1103/PhysRevA.102.022227">DOI</a>&nbsp;|
+<a href="http://arxiv.org/abs/1807.05957">arXiv</a>&nbsp;]
 </td>
@@ Line 131: / Line 138: @@
 <tr valign="top">
 <td align="right" class="bibtexnumber">
-[<a name="CLR20b">4</a>]
+[<a name="CLR20a">4</a>]
 </td>
 <td class="bibtexitem">
-Shantanav Chakraborty, Kyle Luh, and Jérémie Roland.
+Shantanav Chakraborty, Kyle Luh, and J&eacute;r&eacute;mie Roland.
- How fast do quantum walks mix?
+ Analog quantum algorithms for the mixing of markov chains.
- <em>Physical Review Letters</em>, 124(5):050501, 2020.
+ <em>Physical Review A</em>, 102:022423, 2020.
-[&nbsp;<a href="http://dx.doi.org/10.1103/physrevlett.124.050501">DOI</a>&nbsp;|
+[&nbsp;<a href="http://dx.doi.org/10.1103/PhysRevA.102.022423">DOI</a>&nbsp;|
-<a href="http://arxiv.org/abs/2001.06305">arXiv</a>&nbsp;]
+<a href="http://arxiv.org/abs/1904.11895">arXiv</a>&nbsp;]
 </td>
@@ Line 146: / Line 153: @@
 <tr valign="top">
 <td align="right" class="bibtexnumber">
-[<a name="ARV19">5</a>]
+[<a name="BAKR20">5</a>]
 </td>
 <td class="bibtexitem">
-Atul&nbsp;Singh Arora, J&eacute;r&eacute;mie Roland, and Chrysoula Vlachou.
+Kishor Bharti, Atul&nbsp;Singh Arora, Leong&nbsp;Chuan Kwek, and J&eacute;r&eacute;mie Roland.
- Explicit quantum weak coin flipping protocols with arbitrarily small
+ Uniqueness of all fundamental noncontextuality inequalities.
-  bias.
+ <em>Physical Review Research</em>, 2:033010, 2020.
- <em>arXiv e-prints</em>, arXiv:1911.13283, 2019.
+[&nbsp;<a href="http://dx.doi.org/10.1103/PhysRevResearch.2.033010">DOI</a>&nbsp;|
-[&nbsp;<a href="http://arxiv.org/abs/1911.13283">arXiv</a>&nbsp;]
+<a href="http://arxiv.org/abs/1811.05294">arXiv</a>&nbsp;]
 </td>
@@ Line 161: / Line 168: @@
 <tr valign="top">
 <td align="right" class="bibtexnumber">
-[<a name="CJR19">6</a>]
+[<a name="CLR20b">6</a>]
+</td>
+<td class="bibtexitem">
+Shantanav Chakraborty, Kyle Luh, and Jérémie Roland.
+ How fast do quantum walks mix?
+ <em>Physical Review Letters</em>, 124(5):050501, 2020.
+[&nbsp;<a href="http://dx.doi.org/10.1103/physrevlett.124.050501">DOI</a>&nbsp;|
+<a href="http://arxiv.org/abs/2001.06305">arXiv</a>&nbsp;]
+</td>
+</tr>
+<tr valign="top">
+<td align="right" class="bibtexnumber">
+[<a name="CJR19">7</a>]
 </td>
 <td class="bibtexitem">
@@ Line 175: / Line 197: @@
 <tr valign="top">
 <td align="right" class="bibtexnumber">
-[<a name="ARW19">7</a>]
+[<a name="ARW19">8</a>]
 </td>
 <td class="bibtexitem">
@@ Line 184: / Line 206: @@
 [&nbsp;<a href="http://dx.doi.org/10.1145/3313276.3316306">DOI</a>&nbsp;|
 <a href="http://arxiv.org/abs/1811.02984">arXiv</a>&nbsp;]
-</td>
-</tr>
-<tr valign="top">
-<td align="right" class="bibtexnumber">
-[<a name="CNR18">8</a>]
-</td>
-<td class="bibtexitem">
-Shantanav Chakraborty, Leonardo Novo, and J&eacute;r&eacute;mie Roland.
- Finding a marked node on any graph by continuous time quantum walk.
- <em>arXiv e-prints</em>, arXiv:1807.05957, 2018.
-[&nbsp;<a href="http://arxiv.org/abs/1807.05957">arXiv</a>&nbsp;]
 </td>