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485 results on '"Flores, Jaime"'

1. Remote picometric acoustic sensing via ultrastable laser interferometry

Author

Jang, Yoon-Soo, Lee, Dong Il, Flores, Jaime Flor, Wang, Wenting, and Wong, Chee Wei

Subjects
Physics - Optics, Physics - Instrumentation and Detectors
Abstract

Acoustic detection has many applications across science and technology, from medical to imaging and communications. However, most acoustic sensors have a common limitation in that the detection must be near the acoustic source. Alternatively laser interferometry with picometer-scale motional displacement detection can rapidly and precisely measure sound induced minute vibrations on remote surfaces. Here we demonstrate the feasibility of sound detection up to 100 kHz at remote sites with ~ 60 m of optical path length via laser homodyne interferometry. Based on our ultrastable Hz-linewidth laser with 10-15 fractional stability, our laser interferometer achieves 0.5 pm/Hz1/2 displacement sensitivity near 10 kHz, bounded only by laser frequency noise over 10 kHz. Between 140 Hz to 15 kHz, we achieve a homodyne acoustic sensing sensitivity of sub-nm/Pa across our conversational frequency overtones. The minimal sound pressure detectable over 60 m of optical path length is ~ 2 mPa, with dynamic ranges over 100 dB. With the demonstrated standoff picometric distance metrology, we successfully detected and reconstructed musical scores of normal conversational volumes with high fidelity. The acoustic detection via this precision laser interferometer could be applied to selective area sound sensing for remote acoustic metrology, optomechanical vibrational motion sensing and ultrasensitive optical microphones at the laser frequency noise limits., Comment: 25 pages, 10 figures

Published
2024

2. Parametrically driven inertial sensing in chip-scale optomechanical cavities at the thermodynamical limits with extended dynamic range

Author

Flores, Jaime Gonzalo Flor, Yerebakan, Talha, Wang, Wenting, Yu, Mingbin, Kwong, Dim-Lee, Matsko, Andrey, and Wong, Chee Wei

Subjects
Electrical Engineering and Systems Science - Systems and Control, Physics - Optics
Abstract

Recent scientific and technological advances have enabled the detection of gravitational waves, autonomous driving, and the proposal of a communications network on the Moon (Lunar Internet or LunaNet). These efforts are based on the measurement of minute displacements and correspondingly the forces or fields transduction, which translate to acceleration, velocity, and position determination for navigation. State-of-the-art accelerometers use capacitive or piezo resistive techniques, and micro-electromechanical systems (MEMS) via integrated circuit (IC) technologies in order to drive the transducer and convert its output for electric readout. In recent years, laser optomechanical transduction and readout have enabled highly sensitive detection of motional displacement. Here we further examine the theoretical framework for the novel mechanical frequency readout technique of optomechanical transduction when the sensor is driven into oscillation mode [8]. We demonstrate theoretical and physical agreement and characterize the most relevant performance parameters with a device with 1.5mg/Hz acceleration sensitivity, a 2.5 fm/Hz1/2 displacement resolution corresponding to a 17.02 ug/Hz1/2 force-equivalent acceleration, and a 5.91 Hz/nW power sensitivity, at the thermodynamical limits. In addition, we present a novel technique for dynamic range extension while maintaining the precision sensing sensitivity. Our inertial accelerometer is integrated on-chip, and enabled for packaging, with a laser-detuning-enabled approach.

Published
2022

3. AtOMICS: A neural network-based Automated Optomechanical Intelligent Coupling System for testing and characterization of silicon photonics chiplets

Author

Flores, Jaime Gonzalo Flor, Nasseraddin, Connor, Solomon, Jim, Yerebakan, Talha, Matsko, Andrey B., and Wong, Chee Wei

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Physics - Applied Physics
Abstract

Recent advances in silicon photonics promise to revolutionize modern technology by improving performance of everyday devices in multiple fields. However, as the industry moves into a mass fabrication phase, the problem of effective testing of integrated silicon photonics devices remains to be solved. A cost-efficient manner that reduces schedule risk needs to involve automated testing of multiple devices that share common characteristics such as input-output coupling mechanisms, but at the same time needs to be generalizable to multiple types of devices and scenarios. In this paper we present a neural network-based automated system designed for in-plane fiber-chip-fiber testing, characterization, and active alignment of silicon photonic devices that use process-design-kit library edge couplers. The presented approach combines state-of-the-art computer vision techniques with time-series analysis, in order to control a testing setup that can process multiple devices and can be easily tuned to incorporate additional hardware. The system can operate at vacuum or atmospheric pressures and maintains stability for fairly long time periods in excess of a month.

Published
2022

6. A chip-scale oscillation-mode optomechanical inertial sensor near the thermodynamical limits

Author

Huang, Yongjun, Flores, Jaime Gonzalo Flor, Li, Ying, Wang, Wenting, Wang, Di, Goldberg, Noam, Zheng, Jiangjun, Yu, Mingbin, Lu, Ming, Kutzer, Michael, Rogers, Daniel, Kwong, Dim-Lee, Churchill, Layne, and Wong, Chee Wei

Subjects
Physics - Instrumentation and Detectors, Electrical Engineering and Systems Science - Signal Processing, Physics - Applied Physics, Physics - Optics
Abstract

High-precision inertial sensing and gravity sensing are key in navigation, oil exploration, and earthquake prediction. In contrast to prior accelerometers using piezoelectric or electronic capacitance readout techniques, optical readout provides narrow-linewidth high-sensitivity laser detection along with low-noise resonant optomechanical transduction near the thermodynamical limits. Here an optomechanical inertial sensor with 8.2micro-g/Hz^1/2 velocity random walk (VRW) at acquisition rate of 100 Hz and 50.9 micro-g bias instability is demonstrated, suitable for consumer and industrial grade applications, e.g., inertial navigation, inclination sensing, platform stabilization, and/or wearable device motion detection. Driven into optomechanical sustained-oscillation, the slot photonic crystal cavity provides radio-frequency readout of the optically-driven transduction with enhanced 625 microg/Hz sensitivity. Measuring the optomechanically-stiffened oscillation shift, instead of the optical transmission shift, provides a 220x VRW enhancement over pre-oscillation mode detection due to the strong optomechanical transduction. Supported by theory, this inertial sensor operates 2.56x above the thermodynamical limit at small integration times, with 43-dB dynamic range, in a solid-state room-temperature readout architecture.

Published
2020

7. Comorbilidades asociadas a la mortalidad por COVID-19 en adultos en Lima, Perú: un estudio de cohorte retrospectiva

Author

M. Gabriela Soto-Cabezas, Mary F. Reyes-Vega, Anderson N. Soriano-Moreno, Luis Ordoñez-Ibargüen, Kevin S. Martel, Noemi Flores-Jaime, Jenny Chirinos-Saire, J. Pierre Velásquez, and Cesar V. Munayco

Subjects
covid-19, comorbilidades, pronóstico, hospitalización, . perú, Medicine, Medicine (General), R5-920
Abstract

Objetivos. Evaluar las comorbilidades asociadas a la mortalidad en pacientes adultos hospitalizados por COVID-19 19 de diferentes grupos de edad en hospitales de Lima y Callao. Materiales y métodos. En este estudio de cohorte retrospectiva analizamos datos de pacientes adultos hospitalizados por COVID-19 notificados al Sistema Nacional de Vigilancia Epidemiológica del Ministerio de Salud de Perú de marzo a octubre del 2020. Se estimaron riesgos relativos con intervalos de confianza al 95% mediante modelos de regresión de Poisson con varianza robusta para evaluar las comorbilidades asociadas a la mortalidad por grupos de edad: jóvenes (18-29 años), adultos (30-59 años) y mayores (≥60 años). Resultados. Se incluyeron 2366 jóvenes, 23781 adultos y 25356 adultos mayores en el análisis. Los adultos mayores presentaron la mortalidad más alta (63,7%) en comparación con adultos (27,1%) y jóvenes (8,5%). Independientemente del grupo de edad, la presencia de enfermedad neurológica, enfermedad renal, enfermedad hepática y cáncer se asoció a un mayor riesgo de mortalidad. Adicionalmente, la enfermedad cardiovascular es también un factor de riesgo en los jóvenes; la obesidad, la diabetes, la enfermedad cardiovascular, la enfermedad pulmonar crónica y la inmunodeficiencia en los adultos; y la obesidad y la enfermedad pulmonar crónica en los mayores. Conclusiones: Independientemente de los grupos de edad, los individuos con enfermedad neurológica crónica, enfermedad renal, enfermedad hepática y cáncer tendrían un alto riesgo de morir por la COVID-19.

Published
2023
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9. Assessing the feasibility of exogenous 17β-estradiol for inducing sex change in white snook, C. viridis: From growth, resting and maturation studies

Author

Navarro-Flores Jaime, Martínez-Brown Juan Manuel, Zavala-Leal Iram, Rojo-Cebreros Angel Humberto, and Ibarra-Castro Leonardo

Subjects
Sex change, Hermaphroditism, Gonad histology, Vitellogenesis, Precocious female, Aquaculture. Fisheries. Angling, SH1-691
Abstract

This study evaluated growth, survival, and oogenesis before and after 17β-estradiol (E2) treatments. During the growth period, C. viridis reached a total length of 65 ± 4.2 cm and a weight of 2.5 ± 0.66 kg BW. To induce sex change in males, we implanted silastic tubing loaded with 0 (control), 0.5, or 1.5 mg of E2 kg−1, at days 0, 30, 60, and 90. Blood samples were collected before treatment (day 0) and on days 30, 60, 90, and 120. Initially, 23% of the selected males expressed milt. At 60 days post-treatment 13% in the control and 4.3% in both, 0.5 and 1.5 mg E2 kg−1 BW treatments. After 120 days we observed histological evidence of sex change in 50% of the histology-tagged fish in the 1.5 mg E2 kg−1 treatment. The gonadosomatic index and condition factor did not differ significantly (P > 0.05) between the control and the treatments. However, the mean individual fish weight differed significantly across all sampling times (P

Published
2023
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11. The Philippines : Uncovering the 2015–2016 El Niño and Online Discourse in the Philippines

Author

Flores, Jaime Manuel Q., Lucero, Anthony Joseph R., Andharia, Janki, Series Editor, O'Riordan, Tim, Editorial Board Member, Vishwanathan, Shiv, Editorial Board Member, Wainryb, Cecilia, Editorial Board Member, N., Jayaram, Editorial Board Member, Kapila, Mukesh, Editorial Board Member, Vatsa, Krishna, Editorial Board Member, Arlikatti, Sudha Sudhir, Editorial Board Member, D'Souza, Rohan, Editorial Board Member, Hiranandani, Vanmala, Editorial Board Member, and Glantz, Michael H., editor

Published
2022
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13. Broadband gate-tunable THz plasmons in graphene heterostructures

Author

Yao, Baicheng, Liu, Yuan, Huang, Shu-Wei, Choi, Chanyeol, Xie, Zhenda, Flores, Jaime Flor, Wu, Yu, Yu, Mingbin, Kwong, Dim-Lee, Huang, Yu, Rao, Yunjiang, Duan, Xiangfeng, and Wong, Chee Wei

Subjects
Physics - Optics
Abstract

Graphene, a unique two-dimensional material of carbon in a honeycomb lattice, has brought remarkable breakthroughs across the domains of electronics, mechanics, and thermal transport, driven by the quasiparticle Dirac fermions obeying a linear dispersion. Here we demonstrate a counter-pumped all-optical difference frequency process to coherently generate and control THz plasmons in atomic layer graphene with an octave tunability and high efficiency. We leverage the inherent surface asymmetry of graphene for a strong second-order nonlinear polarizability chi(2), which together with tight plasmon field confinement, enables a robust difference frequency signal at THz frequencies. The counter-pumped resonant process on graphene uniquely achieves both energy and momentum conservation. Consequently we demonstrate a dual-layer graphene heterostructure that achieves the charge- and gate-tunability of the THz plasmons over an octave, from 9.4 THz to 4.7 THz, bounded only by the pump amplifier optical bandwidth. Theoretical modeling supports our single-volt-level gate tuning and optical-bandwidth-bounded 4.7 THz phase-matching measurements, through the random phase approximation with phonon coupling, saturable absorption, and below the Landau damping, to predict and understand the graphene carrier plasmon physics.

Published
2017
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14. Somatotype, anthropometric characteristics, body composition, and global flexibility range in artistic gymnasts and sport hoop athletes.

Author

González Macías, Mirvana Elizabeth and Flores, Jaime

Subjects
*ARTISTIC gymnastics, *BODY composition, *STANDARD deviations, *GYMNASTS, *ATHLETES
Abstract

The objective of the study was to analyze the somatotype, anthropometric characteristics, body composition, and the global flexibility battery test. A total of 48 athletes of both sexes from Women's Artistic Gymnastics, Men's Artistic Gymnastics, and Hoop Sport (mean ± standard deviation, age 12.50 ± 2.67 years, body mass 43.16 ± 11.00 kg, height 150.15 ± 11.91 cm). Anthropometric data were obtained using the ISAK protocol. The somatotype was analyzed using the Heath-Carter method. The results indicate significant differences in fat, bone, and residual mass, as well as in the proportions of endomorphy, mesomorphy, and ectomorphy (p <0.05). The somatocard revealed that most athletes were classified as endomorphic mesomorph or ectomorphic mesomorph, with variations between groups. Positive and negative correlations were identified between the anthropometric variables, somatotype, body composition, and global flexibility. All positions of the global flexibility battery test showed negative correlations with residual mass, indicating that the greater the range of flexibility, the lower the residual mass. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Mexico ants : incidence and abundance along the Nearctic–Neotropical interface

Author

Dáttilo, Wesley, Vásquez-Bolaños, Miguel, Ahuatzin, Diana A., Antoniazzi, Reuber, Chávez-González, Edgar, Corro, Erick, Luna, Pedro, Guevara, Roger, Villalobos, Fabricio, Madrigal-Chavero, Ricardo, de Faria Falcão, Jéssica C., Bonilla-Ramírez, Adrián, Romero, Agustín Rafael García, de la Mora, Aldo, Ramírez-Hernández, Alfredo, Escalante-Jiménez, Ana Leticia, Martínez-Falcón, Ana P., Villarreal, Andrés I., Sandoval, Ashley García Colón, Aponte, Bolívar, Juárez-Juárez, Brenda, Castillo-Guevara, Citlalli, Moreno, Claudia E., Albor, Cristopher, Martínez-Tlapa, Dora Luz, Huber-Sannwald, Elisabeth, Escobar, Federico, Montiel-Reyes, Fernando J., Varela-Hernández, Fernando, Castaño-Meneses, Gabriela, Pérez-Lachaud, Gabriela, Pérez-Toledo, Gibrán Renoy, Alcalá-Martínez, Irene, Rivera-Salinas, Iris Saraeny, Chairez-Hernández, Isaías, Chamorro-Florescano, Ivette A., Hernández-Flores, Jaime, Toledo, Javier Martínez, Lachaud, Jean-Paul, Reyes-Muñoz, Jesús Lumar, Valenzuela-González, Jorge E., Horta-Vega, Jorge Víctor, Cruz-Labana, José Domingo, Reynoso-Campos, José Javier, Navarrete-Heredia, José L., Rodríguez-Garza, Juan Antonio, Pérez-Domínguez, Juan Francisco, Benítez-Malvido, Julieta, Ennis, Katherine K., Sáenz, Laura, Díaz-Montiel, Luis A., Tarango-Arámbula, Luis Antonio, Quiroz-Robedo, Luis N., Rosas-Mejía, Madai, Villalvazo-Palacios, Margarita, Gómez-Lazaga, María, Cuautle, Mariana, Aguilar-Méndez, Mario J., Baena, Martha L., Madora-Astudillo, Martha, Rocha-Ortega, Maya, Pale, Michel, García-Martínez, Miguel A., Soto-Cárdenas, Miguel Angel, Correa-Ramírez, Miguel Mauricio, Janda, Milan, Rojas, Patricia, Torres-Ricario, René, Jones, Robert W., Coates, Rosamond, Gómez-Acevedo, Sandra Luz, Ugalde-Lezama, Saúl, Philpott, Stacy M., Joaqui, Tatiana, Marques, Tatianne, Zamora-Gutierrez, Veronica, Martínez Mandujano, Viviana, Hajian-Forooshani, Zachary, and MacGregor-Fors, Ian

Published
2020

18. MEXICO’S ANTS : WHO ARE THEY AND WHERE DO THEY LIVE?

Author

Dáttilo, Wesley, Vásquez-Bolaños, Miguel, Ahuatzin, Diana A., Antoniazzi, Reuber, Chávez-González, Edgar, Corro, Erick, Luna, Pedro, Guevara, Roger, Villalobos, Fabricio, Madrigal-Chavero, Ricardo, de Faria Falcão, Jéssica C., Bonilla-Ramírez, Adrián, Romero, Agustín Rafael García, de la Mora, Aldo, Ramírez-Hernández, Alfredo, Escalante-Jiménez, Ana Leticia, Martínez-Falcón, Ana P., Villarreal, Andrés I., Sandoval, Ashley García Colón, Aponte, Bolívar, Juárez-Juárez, Brenda, Castillo-Guevara, Citlalli, Moreno, Claudia E., Albor, Cristopher, Martínez-Tlapa, Dora Luz, Huber-Sannwald, Elisabeth, Escobar, Federico, Montiel-Reyes, Fernando J., Varela-Hernández, Fernando, Castaño-Meneses, Gabriela, Pérez-Lachaud, Gabriela, Pérez-Toledo, Gibrán Renoy, Alcalá-Marínez, Irene, Rivera-Salinas, Iris Saraeny, Chairez-Hernández, Isaías, Chamorro-Florescano, Ivette A., Hernández-Flores, Jaime, Toledo, Javier Martínez, Lachaud, Jean-Paul, Reyes-Muñoz, Jesús Lumar, Valenzuela-González, Jorge E., Horta-Vega, Jorge Víctor, Cruz-Labana, José Domingo, Reynoso-Campos, José Javier, Navarrete-Heredia, José L., Rodríguez-Garza, Juan Antonio, Pérez-Domínguez, Juan Francisco, Benítez-Malvido, Julieta, Ennis, Katherine K., Sáenz, Laura, Díaz-Montiel, Luis A., Tarango-Arámbula, Luis Antonio, Quiroz-Robedo, Luis N., Rosas-Mejía, Madai, Villalvazo-Palacios, Margarita, Gómez-Lazaga, María, Cuautle, Mariana, Aguilar-Méndez, Mario J., Baena, Martha L., Madora-Astudillo, Martha, Rocha-Ortega, Maya, Pale, Michel, García-Martínez, Miguel A., Soto-Cárdenas, Miguel Angel, Correa-Ramírez, Miguel Mauricio, Janda, Milan, Rojas, Patricia, Torres-Ricario, René, Jones, Robert W., Coates, Rosamond, Gómez-Acevedo, Sandra Luz, Ugalde-Lezama, Saúl, Philpott, Stacy M., Joaqui, Tatiana, Marques, Tatianne, Zamora-Gutierrez, Veronica, Mandujano, Viviana Martínez, Hajian-Forooshani, Zachary, and MacGregor-Fors, Ian

Published
2020

20. A low-frequency chip-scale optomechanical oscillator with 58 kHz mechanical stiffening and more than 100th-order stable harmonics.

Author

Huang, Yongjun, Flores, Jaime Gonzalo Flor, Cai, Ziqiang, Yu, Mingbin, Kwong, Dim-Lee, Wen, Guangjun, Churchill, Layne, and Wong, Chee Wei

Abstract

For the sensitive high-resolution force- and field-sensing applications, the large-mass microelectromechanical system (MEMS) and optomechanical cavity have been proposed to realize the sub-aN/Hz1/2 resolution levels. In view of the optomechanical cavity-based force- and field-sensors, the optomechanical coupling is the key parameter for achieving high sensitivity and resolution. Here we demonstrate a chip-scale optomechanical cavity with large mass which operates at ≈77.7 kHz fundamental mode and intrinsically exhibiting large optomechanical coupling of 44 GHz/nm or more, for both optical resonance modes. The mechanical stiffening range of ≈58 kHz and a more than 100th-order harmonics are obtained, with which the free-running frequency instability is lower than 10-6 at 100 ms integration time. Such results can be applied to further improve the sensing performance of the optomechanical inspired chip-scale sensors.

Published
2017

23. Lymphoid System Development and Early Window of Immunological Susceptibility in Spotted Rose Snapper Lutjanus Guttatus

Author

Rojo-Cebreros, Angel Humberto, primary, Martínez-Brown, Juan Manuel, additional, Mirabent-Casals, Marian, additional, García-Gasca, Alejandra, additional, Ventura-Juárez, Javier, additional, Fonseca-Madrigal, Jorge, additional, Martínez-Chávez, Cristian, additional, Navarro-Flores, Jaime, additional, and Ibarra-Castro, Leonardo, additional

Published
2024
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26. Resolving atto-Newton forces and femtometer motional displacement in chip-scale cavity optomechanics

Author

Flor Flores, Jaime

Subjects
Electrical engineering, accelerometer, inertial sensors, navigation, optical sensing, optomechanics
Abstract

Accurate determination of attitude and position is a fundamental aspect of inertial navigation. Modern navigation techniques use a combination of sensors, that rely on an Inertial Measurement Unit (IMU) for short term position estimation and at least one constellation of the Global Navigation Satellite System (GNSS), such as the Global Positioning System (GPS), to reduce long term solution divergence. However, for earth and space applications, in GNSS denied environments, the performance of IMUs, and of their core accelerometers, is critical for the success of the mission. In fact, improvement in accelerometer’s bias stability and resolution can enable longer autonomous navigation vehicles, including satellites and spacecraft. At the same time, reductions in size and weight are key factors for longer range and extended mission duration.However, scaling down the dimensions of transducers that depend on their weight to harvest specific force is not an easy task, since reduction in mass is proportional to the cube of the length (~ l 3). A smaller transducer needs to be more sensitive to motional displacements, if it were to maintain the same performance, which translates into an operational point closer to the physical limits. In this regard, recent advances in radiation-pressure driven cavity optomechanics have provided new frontiers in laser cooling of mesoscopic systems, chip-scale stable RF sources, phonon lasers, and chaos. By coupling optical and mechanical modes, it is possible to detect tiny mechanical motions in the order of a few femtometers, which has attracted interest for sensing design on accelerometers and other transducers, and has enabled applications such as the detection of gravitational waves.In our work, we propose an optomechanical accelerometer that in contrast to state-of-the-art piezoelectric or capacitive accelerometers, offers an integrated feedback system and optical readout, which provides advantages like narrow-linewidth, high-sensitivity laser detection, with low-noise resonant optomechanical transduction close to the thermal limit, and can be used to measure atto-Newton level forces through detecting femtometer displacements. This technique will enable the development of more sensitive accelerometers and gravimeters that will improve position determination.

Published
2022

40. A Testbed for Exploring Human-Robot Interaction with Unmanned Aerial and Ground Vehicles

Author

Flores, Jaime H., Martin, Glenn A., Durlach, Paula J., Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Goebel, Randy, editor, Siekmann, Jörg, editor, Wahlster, Wolfgang, editor, and Harris, Don, editor

Published
2011
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41. Viability of Mobile Devices for Training Purposes

Author

Sirigampola, Shehan, Zielinski, Steven, Martin, Glenn A., Daly, Jason, Flores, Jaime, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Goebel, Randy, editor, Siekmann, Jörg, editor, Wahlster, Wolfgang, editor, and Harris, Don, editor

Published
2011
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47. The Power and Politics of Art in Postrevolutionary Mexico

Author

Quinn-Sanchez, Kathryn and Flores, Jaime A. Rivera

Subjects
The Power and Politics of Art in Postrevolutionary Mexico (Nonfiction work) -- Smith, Stephanie J. -- Book reviews, History
Abstract

The Power and Politics of Art in Postrevolutionary Mexico. By Stephanie J. Smith. (Chapel Hill, NC: University of North Carolina Press, 2017. Pp. xiii, 275. $29.95.)The author of this study [...]

Published
2018

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