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J. A. Orduz-Ducuara

J. A. Orduz-Ducuara
Earlham College/Baylor University · CS and Math

Doctor of Science

About

22
Publications
5,266
Reads
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262
Citations
Introduction
J. A. Orduz-Ducuara currently works at Baylor University. JO focuses on Quantum Computing, Quantum Machine Learning, and applications.
Additional affiliations
December 2020 - present
Baylor University
Position
  • PostDoc Position
Description
  • Quantum Computing and Quantum Machine Learning Scientist.
February 2017 - November 2017
National Autonomous University of Mexico
Position
  • Professor (Associate)
February 2017 - December 2020
National Autonomous University of Mexico
Position
  • Professor (Associate)
Education
August 2010 - July 2014

Publications

Publications (22)
Article
Full-text available
Motivated by the growing threat of distributed denial-of-service (DDoS) attacks and the emergence of quantum computing, this study introduces a novel “quanvolutional autoencoder” architecture for learning representations. The architecture leverages the computational advantages of quantum mechanics to improve upon traditional machine learning techni...
Article
Full-text available
The complexity of searching algorithms in classical computing is a classic problem and a research area. Quantum computers and quantum algorithms can efficiently compute some classically hard problems. In addition, quantum machine learning algorithms could be an important avenue to boost existing and new quantum-based technology, reducing the superc...
Article
Full-text available
The extraordinary advance in quantum computation leads us to believe that, in the not-too-distant future, quantum systems will surpass classical systems. Moreover, the field’s rapid growth has resulted in the development of many critical tools, including programmable machines (quantum computers) that execute quantum algorithms and the burgeoning fi...
Article
Full-text available
In recent years, Earth system sciences are urgently calling for innovation on improving accuracy, enhancing model intelligence level, scaling up operation, and reducing costs in many subdomains amid the exponentially accumulated datasets and the promising artificial intelligence (AI) revolution in computer science. This paper presents work led by t...
Article
Exploramos técnicas de Machine Learning y conceptos de Computación Cuántica que podrían aplicarse en Física de Altas Energías desde una perspectiva fenomenológica y teórica. En este marco, mostramos las principales herramientas para explorar las extensiones del Modelo Estándar, el proceso de decaimiento y el espacio de parámetros. Con este conjunto...
Poster
We explore some Standard Model (SM) extensions considering Machine Learning (ML) techniques. This is stage one, looking for recents papers, collaborations and events to build the framework and the contributions in this exciting field which combines: Physics, Computing, Mathematics and Artificial Intelligence. Our main expectations (stage two of the...
Article
Full-text available
We explore the flavor-changing parameters mediated by a Higgs boson within the THDM-III context. In particular, the $h\to t^* c$ processes, and check the high suppression for the FC in the THDM-III context for the low $t_\beta$ parameters. Our exploration in the $\chi_{ij}^{u}-\chi_{ij}^{d}-$parameter space shows the allowed regions for different $...
Article
In this paper we study the Flavor-Changing mediated by Higgs boson within Two-Higgs Doublet Model-III context. We explore the parameter space and, considering recent results, find new limits for the model parameters. We also obtain the total Higgs decay width and the branching ratios for different channels taking limits for the $t\to cV$ and $b\to...
Article
Full-text available
This letter presents a phenomenological analysis for the lepton ($l_i^{}$) decaying into $ l_j^{} l_k^{} \bar{l}_k^{}, l_j^{} \pi^+ \pi^-$ considering family non-universal couplings as source of the lepton flavor-violating (LFV) currents and a new neutral gauge boson ($Z'$) as mediator in the flavor-changing. The most viable $g_{V}^{f_if_J}$ and $g...
Article
Full-text available
In this letter we show a general description about flavor-changing neutral currents (FCNC) mediated by scalars. The analysis is extended at two-loop level for the Two-Higgs Doublet Model type-III because others models have strong constraints on its parameters, even at high orders of the perturbation. For this letter we focus on the standard model,...
Article
Full-text available
We study the phenomena of flavor violation, and its implications for Higgs signals, within the context of the Two-Higgs doublet model with Textures (2HDM-Tx). Unlike previous works, where the set of Yukawa matrices are assumed to have the same form (parallel textures), we study combinations of Yukawa matrices with different textures (complementary...
Article
En este escrito presentamos algunos lenguajes de programación usados en la realización de presentaciones, documentos o simplemente como ayudas visuales para apoyar al estudiante y al profesor en la comprensión de conceptos e ideas en ciencias. Este tipo de herramientas se ajustan muy bien en la educación a distancia y, para el nivel medio y medio s...
Article
Full-text available
The general two-higgs doublet model (2HDM) contains a rich spectrum of neutral and charged Higgs bosons, whose detection would be a clear signal of new physics. When the Higgs potential is CP-conserving, the spectrum includes a pseudoscalar mass eigenstate $A^{0}$, which does not couple to vector bosons at tree-level. However, fermionic loops (top...
Conference Paper
Full-text available
We explore the phenomena of flavor violation, using combinations of Yukawa matrices in order to reproduce a hermitian mass matrix. We work within the Two-Higgs doublet model with a specific four-zero texture type (2HDM-Tx). Current experimental bounds from are used in order to restrict the values for the parameters model: We predict the rates for t...
Article
Full-text available
Models with extra gauge bosons often requires an extended Higgs sector, with properties that deviate from the Standard Model (SM) case. These modifications would affect the strength of the signals that are used to search for the Higgs spectrum at present and future colliders. However, it is also possible that new signals could arise in these models...
Article
Full-text available
Models with extra gauge bosons often require an extended Higgs sector, which contains a rich spectrum of Higgs bosons with properties that deviate from the Standard Model (SM). Such Higgs bosons could be searched using standard mechanisms similar to the SM. However, the existence of the new gauge bosons could provide new production mechanisms, whic...

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