Your search keyword '"Monken C"' showing total 14 results

1. The addition of recombinant vaccinia HER2/neu to oncolytic vaccinia-GMCSF given into the tumor microenvironment overcomes MDSC-mediated immune escape and systemic anergy.

Author

de Vries, C R, Monken, C E, and Lattime, E C

Subjects

*HER2 protein, *TUMOR immunology, *TUMOR treatment, *GRANULOCYTE-macrophage colony-stimulating factor, *RECOMBINANT drugs, *VACCINIA, *SUPPRESSOR cells

Abstract

Effective immunotherapeutic strategies require the ability to generate a systemic antigen-specific response capable of impacting both primary and metastatic disease. We have built on our oncolytic vaccinia a granulocyte-macrophage colony-stimulating factor (GM-CSF) strategy by adding recombinant tumor antigen to increase the response in the tumor microenvironment and systemically. In the present study, orthotopic growth of a syngeneic HER2/neu-overexpressing mammary carcinoma in FVB/N mice (NBT1) was associated with increased Gr1+CD11b+ myeloid-derived suppressor cells (MDSCs) both systemically and in the tumor microenvironment. This MDSC population had inhibitory effects on the HER2/neu-specific Th1 immune response. VVneu and VVGMCSF are recombinant oncolytic vaccinia viruses that encode HER2/neu and GM-CSF, respectively. Naive FVB mice vaccinated with combined VVneu and VVGMCSF given systemically developed systemic HER2/neu-specific immunity. NBT1-bearing mice became anergic to systemic immunization with combined VVneu and VVGMCSF. Intratumoral VVGMCSF failed to result in systemic antitumor immunity until combined with intratumoral VVneu. Infection/transfection of the tumor microenvironment with combined VVGMCSF and VVneu resulted in development of systemic tumor-specific immunity, reduction in splenic and tumor MDSC and therapeutic efficacy against tumors. These studies demonstrate the enhanced efficacy of oncolytic vaccinia virus recombinants encoding combined tumor antigen and GM-CSF in modulating the microenvironment of MDSC-rich tumors. [ABSTRACT FROM AUTHOR]

Published

2015

2. Energy and momentum entanglement in parametric downconversion.

Author

Saldanha, Pablo L. and Monken, C. H.

Subjects

*SCATTERING (Physics), *PHOTONS, *CRYSTALS, *ELECTRON backscattering, *QUANTUM theory

Abstract

We present a simple treatment of the phenomenon of spontaneous parametric downconversion consisting of the coherent scattering of a single pump photon into an entangled photon pair inside a nonlinear crystal. The energy and momentum entanglement of the quantum state of the generated twin photons are seen as a consequence of the fundamental indistinguishability of the time and the position in which the photon pair is created inside the crystal. We also discuss some consequences of photon entanglement. [ABSTRACT FROM AUTHOR]

Published

2013

3. Interaction between light and matter: a photon wave function approach.

Author

Saldanha, Pablo L. and Monken, C. H.

Subjects

*LIGHT, *MATTER, *PHOTONS, *WAVE functions, *QUANTUM theory

Abstract

The Bialynicki-Birula-Sipe photon wave function formalism is extended to include the interaction between photons and continuous non-absorptive media. When the second quantization of this formalism is introduced, a new method for describing the quantum interactions between light and matter emerges. As an example of the application of the method, an expression for the quantum state of the twin photons generated by parametric downconversion is derived in agreement with previous treatments, but with a more intuitive interpretation. [ABSTRACT FROM AUTHOR]

Published

2011

4. Induction of breast cancer regression with intra-tumoral rV-neu and rV-GMCSF neoadjuvant immunotherapy in murine orthotopic models

Author

Ray, P.S., Monken, C., Schell, S.R., and Lattime, E.C.

Published

2006

5. Manipulation of quantum spatial properties of light.

Author

Ribeiro, P. H. Souto, Caetano, D. P., Monken, C. H., Pardal, J. T. C., and Khoury, A. Z.

Subjects

*OPTICAL polarization, *MECHANICS (Physics), *PHOTONS, *QUANTUM theory, *QUANTUM optics, *LIGHT

Abstract

We discuss how it is possible to manipulate quantum spatial properties of light beams by using the transfer of the angular spectrum. Twin beams from the parametric down-conversion can be prepared in a state that carries two different quantum images. At the same time, the twin photons can be entangled in polarization. This preparation allows the selection between the detection of each one of the images at a time or a mixture by performing proper projections onto polarization sub-spaces. As another example, we show how to produce a light beam presenting spatial anti-bunching through the control of the entangled angular spectrum and reflections. [ABSTRACT FROM AUTHOR]

Published

2004

6. Environmental correlations and Markovian to non-Markovian transitions in collisional models.

Author

Bernardes, N. K., Carvalho, A. R. R., Monken, C. H., and Santos, M. F.

Subjects

*COLLISIONS (Nuclear physics), *QUANTUM mechanics, *QUANTUM theory, *QUANTUM maps, *QUANTUM information theory

Abstract

We investigate the smallest set of requirements for inducing non-Markovian dynamics in a collisional model of open quantum systems. This is done by introducing correlations in the state of the environment and analyzing the divisibility of the quantum maps from consecutive time steps. Our model and results serve as a platform for the microscopic study of non-Markovian behavior as well as an example of a simple scenario of non-Markovianity with purely contractive maps, i.e., with no backflow of information between system and environment. [ABSTRACT FROM AUTHOR]

Published

2014

7. Cancellation of atmospheric turbulence effects in entangled two-photon beams.

Author

Pereira, M. V. da Cunha, Filpi, L. A. P., and Monken, C. H.

Subjects

*ATMOSPHERIC turbulence, *QUANTUM entanglement, *PHOTON beams, *OPTICAL aberrations, *GAUSSIAN processes

Abstract

We introduce a scheme for odd-order aberration-free transmission of two-photon beams through the turbulent atmosphere. We show that a two-photon beam with a Gaussian fourth-order correlation profile can be transmitted through a turbulence cell with very low signal loss. Our scheme relies on the spatial correlations present in two-photon states generated by spontaneous parametric down conversion. [ABSTRACT FROM AUTHOR]

Published

2013

8. Coarse graining a non-Markovian collisional model.

Author

Bernardes, Nadja K., Carvalho, Andre R. R., Monken, C. H., and Santos, Marcelo F.

Subjects

*DYNAMICS, *MARKOV spectrum

Abstract

The dynamics of systems subjected to noise is called Markovian in the absence of memory effects, i.e., when its immediate future depends only on its present. Time correlations in the noise source may generate non-Markovian effects that, sometimes, can be erased by appropriately coarse graining the time evolution of the system. In general, the coarse-graining time tCG is taken to be much larger than the correlation time t but no direct relation between them is established. Here we analytically obtain a relation between tCG and t for the dynamics of a qubit subjected to a time-correlated environment. Our results can be applied in principle to any distribution of the environmental correlations and can be tested through a collisional model where the qubit sequentially interacts with correlated qutrits. [ABSTRACT FROM AUTHOR]

Published

2017

9. GENERATING AND DISTRIBUTING TWO-PHOTON ENTANGLED SPATIAL QUDITS.

Author

Lima, G., Neves, Leonardo, Santos, Ivan F., Monken, C. H., Aguirre Gómez, J. G., Saavedra, Carlos, and Pádua, S.

Subjects

*QUANTUM theory, *PHOTONS, *PARAMETRIC devices, *LIGHT, *PHYSICS

Abstract

We report an experiment to generate and propagate two entangled spatial qudits, $\mathcal{D}$-dimensional quantum systems, using spontaneous parametric down-conversion. The manipulation, via pump beam, of the transverse spatial correlation between the photon pairs is explored. Inserting apertures with $\mathcal{D}$-slits in the arms of the down-converted photons, we associate the qudit space with the $\mathcal{D}$ possible paths followed by each photon. Experimental results for qudits with $\mathcal{D} = 4$ and 8 are shown. We demonstrate that the generated states cannot be classically correlated. We also show the propagation of entangled states of spatial qudits. Their free-space distribution is performed at the laboratory scale and the propagated states maintain a high fidelity with their original form. [ABSTRACT FROM AUTHOR]

Published

2007

10. TWO-PHOTON HIGH-DIMENSIONAL SPATIAL ENTANGLEMENT:: THEORY AND EXPERIMENT.

Author

NEVES, LEONARDO, LIMA, G., AGUIRRE GÓMEZ, J. G., MONKEN, C. H., SAAVEDRA, C., and PÁDUA, S.

Subjects

*PHOTONS, *QUANTUM communication, *OPTICAL communications, *STOCHASTIC partial differential equations, *NUCLEAR physics, *PHYSICS

Abstract

We review recent theoretical and experimental works where are proposed and demonstrated how to use photon pairs created by spontaneous parametric down-conversion to generate entangled states of D-dimensional quantum systems, or qudits. This is the first demonstration of high-dimensional entanglement based on the intrinsic transverse momentum entanglement of the type-II down-converted photons. The qudit space is defined by an aperture made up of an opaque screen with D slits (paths), placed in the arms of the twin photons. By manipulating the pump beam profile we can prepare different entangled states of these possible paths. We focus our attention on an important case for applications in quantum information: the maximally entangled states. Experimental results for qudits with D=4 and D=8 are shown and measuring a two-photon conditional interference, we also demonstrate the nonclassical character of the correlations. [ABSTRACT FROM AUTHOR]

Published

2006

11. MULTIMODE HONG–OU–MANDEL INTERFEROMETRY.

Author

Walborn, S. P., Nogueira, W. A. T., De Oliveira, A. N., Pádua, S., and Monken, C. H.

Subjects

*INTERFEROMETRY, *DIFFRACTION patterns, *HOLOGRAPHIC interferometry, *SPECTRUM analysis, *OPTICAL measurements, *QUANTUM optics, *LIGHT beating spectroscopy, *MULTIPHOTON processes, *OPTICS

Abstract

We review some recent experiments based upon multimode two-photon interference of photon pairs created by spontaneous parametric down-conversion. The new element provided by these experiments is the inclusion of the transverse spatial profiles of the pump, signal and idler fields. We discuss multimode Hong–Ou–Mandel interference, and show that the transverse profile of the pump beam can be manipulated in order to control two-photon interference. We present the basic theory and experimental results as well as several applications to the field of quantum information. [ABSTRACT FROM AUTHOR]

Published

2005

12. Tomography of fluctuating biological interfaces using defocusing microscopy.

Author

Glionna, G., Oliveira, C. K., Siman, L. G., Moyses, H. W., Prado, D. M. U., Monken, C. H., and Mesquita, O. N.

Subjects

*SURFACE chemistry, *TOMOGRAPHY, *MEDICAL radiography, *BIOCHEMISTRY, *OPTICAL resolution

Abstract

We show that a bright-field defocused microscope is effectively a phase-contrast microscope, but with advantages over the conventional one and maintaining the same optical resolution. In a multilayered transparent object, the height amplitude (static and dynamic) of each interface can be measured separately with nanometer sensitivity. By scanning the position of the objective focal plane in relation to the surfaces of a red blood cell, we obtain quantitative information on height fluctuations from each surface individually, which can be analyzed with our model of a defocused microscope and compared with theoretical models. [ABSTRACT FROM AUTHOR]

Published

2009

13. High Resolution non-Markovianity in NMR.

Author

Bernardes, Nadja K., Peterson, John P. S., Sarthour, Roberto S., Souza, Alexandre M., Monken, C. H., Roditi, Itzhak, Oliveira, Ivan S., and Santos, Marcelo F.

Published

2016

14. Experimental observation of weak non-Markovianity.

Author

Bernardes, Nadja K., Cuevas, Alvaro, Orieux, Adeline, Monken, C. H., Mataloni, Paolo, Sciarrino, Fabio, and Santos, Marcelo F.

Published

2015