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people:danielbrod [2011/08/18 21:33]
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people:danielbrod [2018/11/09 18:42] (current)
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-**Daniel Jost Brod**+===== Daniel Jost Brod =====
  
-Sala A2-01 \\ +{{:people:​brod_grande.jpg?200}}
-E-mailbrod@if.uff.br \\ +
-Telefone: 2629-5792+
  
-Orientador: Ernesto Fagundes Galvão+Assistant Professor (Prof. Adjunto) ​ \\ 
 +Room A1-05
  
-Lattes: http://​lattes.cnpq.br/​2149664608521453+E-mail: danieljostbrod@id.uff.br \\ 
 +CV Lattes: http://​lattes.cnpq.br/​2149664608521453 ​\\
  
-**Introdução**+**Academic summary** \\
  
-Sou doutorando em Física da Universidade ​Federal Fluminense, desde 2009. Estudo principalmente resultados ​de simulabilidade/​universalidade de circuitos quânticos restritos ​(pexférmions ou bósons não-interagentes), na tentativa de melhor compreender o salto de poder computacional entre computadores clássicos e quânticos+* Graduated in Physics at the Universidade de Brasília ​(2008);\\ 
 +* Ph.Din Physics at the Universidade Federal Fluminense (2014); \\ 
 +* Post-doc positions at the Perimeter Institute for Theoretical Physics (2014-2017) and the Universidade Federal Fluminense (2017 - 2018). \\
  
-**Formação**+**Research**
  
-  * Bacharelado em FísicaUniversidade de Brasília2004-2009 +My main research interests are in the area of Quantum Computingin particular in understanding which fundamental physical resources are sufficient or necessary for the construction of quantum devices capable of demonstrating some computational advantage. SpecificallyI have worked in
-  * Doutorado em Física, Universidade Federal Fluminense, 2009 - +
  
-**Interesses de pesquisa**+  ​Quantum computing with (bosonic) linear optics and the Knill-Laflamme-Milburn protocol; 
 +  ​Restricted models of quantum computing and their complexity:​ 
 +   BosonSampling (i.e. non-adaptive linear optics); 
 +   Matchgates, a set of quantum gates closely related to //​fermionic//​ linear optics; 
 +   * Other "​quantum computational supremacy"​ proposals, such as random circuits, IQP, and so on; 
 +  * Quantum computing with nonlinear optics. Specifically,​ whether it is possible to construct a working quantum computer based on the cross-Kerr or self-Kerr effects;
  
-  * Computação quântica com ótica linear (Um artigo de revisão bastante completoporém um pouco antigopode ser encontrado [[http://​arxiv.org/​abs/​quant-ph/​0512071|aqui]]) +I am also strongly interested in other topics in the field of quantum computationinformation and foundationssuch as 
-  * Circuitos quânticos restritos, como [[http://​arxiv.org/​abs/​1106.1863|matchgates]] ou [[http://​arxiv.org/​abs/​1011.3245|ótica linear na ausência de medidas adaptativas]],​ e suas capacidades computacionais.+
  
-**Publicações**+  ​Alternative models of quantum computing, such as measurement-based,​ topological and adiabatic quantum computing;​ 
 +  ​Whether it is possible to perform other "​nonclassical"​ tasks, such as violations of Bell inequalities,​ within restricted subsets of Quantum Mechanics.
  
-[1] Brod D. J, Galvão E. F. [[http://pra.aps.org/abstract/PRA/​v84/​i2/​e022310|Extending matchgates into universal quantum computation]]. Phys. Rev. A 84, 022310 (2011).+My list of publications can be found [[https://arxiv.org/a/brod_d_1.html|here]].
  
people/danielbrod.1313713989.txt.gz · Last modified: 2018/11/09 18:42 (external edit)