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Your search keyword '"Jozsa R."' showing total 7 results
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7 results on '"Jozsa R."'

2. Classical simulation of commuting quantum computations implies collapse of the polynomial hierarchy

Author

Bremner, MJ, Jozsa, R, Shepherd, DJ, Bremner, MJ, Jozsa, R, and Shepherd, DJ

Abstract

We consider quantum computations comprising only commuting gates, known as IQP computations, and provide compelling evidence that the task of sampling their output probability distributions is unlikely to be achievable by any efficient classical means. More specifically, we introduce the class post-IQP of languages decided with bounded error by uniform families of IQP circuits with post-selection, and prove first that post-IQP equals the classical class PP. Using this result we show that if the output distributions of uniform IQP circuit families could be classically efficiently sampled, either exactly in total variation distance or even approximately up to 41 per cent multiplicative error in the probabilities, then the infinite tower of classical complexity classes known as the polynomial hierarchy would collapse to its third level. We mention some further results on the classical simulation properties of IQP circuit families, in particular showing that if the output distribution results from measurements on only O(log n) lines then it may, in fact, be classically efficiently sampled. This journal is © 2010 The Royal Society.

Published
2011

4. Chronomics, neuroendocrine feedsidewards and the recording and consulting of nowcasts - Forecasts of geomagnetics

Author

Jozsa R., Halberg F., Cornélissen G., Zeman M., Kazsaki J., Csernus V., Katinas G.S., Wendt H.W., Schwartzkopff O., Stebelova K., Dulkova K., Chibisov S.M., Engebretson M., Pan W., Bubenik G.A., Nagy G., Herold M., Hardeland R., Hüther G., Pöggeler B., Tarquini R., Perfetto F., Salti R., Olah A., Csokas N., Delmore P., Otsuka K., Bakken E.E., Allen J., Amory-Mazaudin C., Jozsa R., Halberg F., Cornélissen G., Zeman M., Kazsaki J., Csernus V., Katinas G.S., Wendt H.W., Schwartzkopff O., Stebelova K., Dulkova K., Chibisov S.M., Engebretson M., Pan W., Bubenik G.A., Nagy G., Herold M., Hardeland R., Hüther G., Pöggeler B., Tarquini R., Perfetto F., Salti R., Olah A., Csokas N., Delmore P., Otsuka K., Bakken E.E., Allen J., and Amory-Mazaudin C.

Abstract

A multi-center four-hourly sampling of many tissues for 7 days (00:00 on April 5-20:00 to April 11, 2004), on rats standardized for 1 month in two rooms on antiphasic lighting regimens happened to start on the day after the second extremum of a moderate double magnetic storm gauged by the planetary geomagnetic Kp index (which at each extremum reached 6.3 international [arbitrary] units) and by an equatorial index Dst falling to -112 and -81 nT, respectively, the latter on the first day of the sampling. Neuroendocrine chronomes (specifically circadian time structures) differed during magnetically affected and quiet days. The circadian melatonin rhythm had a lower MESOR and lower circadian amplitude and tended to advance in acrophase, while the MESOR and amplitude of the hypothalamic circadian melatonin rhythm were higher during the days with the storm. The circadian parameters of circulating corticosterone were more labile during the days including the storm than during the last three quiet days. Feedsidewards within the pineal-hypothalamic-adrenocortical network constitute a mechanism underlying physiological and probably also pathological associations of the brain and heart with magnetic storms. Investigators in many fields can gain from at least recording calendar dates in any publication so that freely available information on geomagnetic, solar and other physical environmental activity can be looked up. In planning studies and before starting, one may gain from consulting forecasts and the highly reliable nowcasts, respectively. © 2005 Elsevier SAS. All rights reserved.

5. Chronobiology's progress. Part II, chronomics for an immediately applicable biomedicine

Author

Halberg F., Cornélissen G., Katinas G., Tvildiani L., Gigolashvili M., Janashia K., Toba T., Revilla M., Regal P., Sothern R.B., Wendt H.W., Wang Z., Zeman M., Jozsa R., Singh R.B., Mitsutake G., Chibisov S.M., Lee J., Holley D., Holte J.E., Sonkowsky R.P., Schwartzkopff O., Delmore P., Otsuka K., Bakken E.E., Czaplicki J., Halberg F., Cornélissen G., Katinas G., Tvildiani L., Gigolashvili M., Janashia K., Toba T., Revilla M., Regal P., Sothern R.B., Wendt H.W., Wang Z., Zeman M., Jozsa R., Singh R.B., Mitsutake G., Chibisov S.M., Lee J., Holley D., Holte J.E., Sonkowsky R.P., Schwartzkopff O., Delmore P., Otsuka K., Bakken E.E., and Czaplicki J.

Abstract

Chronomic cardiovascular surveillance serves to recognise and treat any risk elevation as well as overt disease, and to ascertain whether treatment is effective and, if so, for how long treatment effects lasts, be it for lowering an increased risk and/or in surveilling the success or failure of treatment. A treatment-associated increase in circadian amplitude of blood pressure (BP) may induce iatrogenic overswinging, also dubbed CHAT (circadian hyper-amplitude-tension), in some patients, thereby increasing cardiovascular disease risk unknowingly to care provider and receiver. © Halberg and J. Appl. Biomed.

6. Chronoastrobiology: Proposal, nine conferences, heliogeomagnetics, transyears, near-weeks, near-decades, phylogenetic and ontogenetic memories

Author

Halberg F., Cornélissen G., Regal P., Otsuka K., Wang Z., Katinas G.S., Siegelova J., Homolka P., Prikryl P., Chibisov S.M., Holley D.C., Wendt H.W., Bingham C., Palm S.L., Sonkowsky R.P., Sothern R.B., Pales E., Mikulecky M., Tarquini R., Perfetto F., Salti R., Maggioni C., Jozsa R., Konradov A.A., Kharlitskaya E.V., Revilla M., Wan C., Herold M., Syutkina E.V., Masalov A.V., Singh R.B., Singh R.K., Kumar A., Singh R., Sundaram S., Sarabandi T., Pantaleoni G., Watanabe Y., Kumagai Y., Gubin D., Uezono K., Olah A., Borer K., Kanabrocki E.A., Bathina S., Haus E., Hillman D., Schwartzkopff O., Bakken E.E., Zeman M., Faraone P., Halberg F., Cornélissen G., Regal P., Otsuka K., Wang Z., Katinas G.S., Siegelova J., Homolka P., Prikryl P., Chibisov S.M., Holley D.C., Wendt H.W., Bingham C., Palm S.L., Sonkowsky R.P., Sothern R.B., Pales E., Mikulecky M., Tarquini R., Perfetto F., Salti R., Maggioni C., Jozsa R., Konradov A.A., Kharlitskaya E.V., Revilla M., Wan C., Herold M., Syutkina E.V., Masalov A.V., Singh R.B., Singh R.K., Kumar A., Singh R., Sundaram S., Sarabandi T., Pantaleoni G., Watanabe Y., Kumagai Y., Gubin D., Uezono K., Olah A., Borer K., Kanabrocki E.A., Bathina S., Haus E., Hillman D., Schwartzkopff O., Bakken E.E., Zeman M., and Faraone P.

Abstract

"Chronoastrobiology: are we at the threshold of a new science? Is there a critical mass for scientific research?" A simple photograph of the planet earth from outer space was one of the greatest contributions of space exploration. It drove home in a glance that human survival depends upon the wobbly dynamics in a thin and fragile skin of water and gas that covers a small globe in a mostly cold and vast universe. This image raised the stakes in understanding our place in that universe, in finding out where we came from and in choosing a path for survival. Since that landmark photograph was taken, new astronomical and biomedical information and growing computer power have been revealing that organic life, including human life, is and has been connected to invisible (non-photic) forces in that vast universe in some surprising ways. Every cell in our body is bathed in an external and internal environment of fluctuating magnetism. It is becoming clear that the fluctuations are primarily caused by an intimate and systematic interplay between forces within the bowels of the earth - which the great physician and father of magnetism William Gilbert called a 'small magnet' - and the thermonuclear turbulence within the sun, an enormously larger magnet than the earth, acting upon organisms, which are minuscule magnets. It follows and is also increasingly apparent that these external fluctuations in magnetic fields can affect virtually every circuit in the biological machinery to a lesser or greater degree, depending both on the particular biological system and on the particular properties of the magnetic fluctuations. The development of high technology instruments and computer power, already used to visualize the human heart and brain, is furthermore making it obvious that there is a statistically predictable time structure to the fluctuations in the sun's thermonuclear turbulence and thus to its magnetic interactions with the earth's own magnetic field and hence a time structu

7. Unseen space weather also relates to cardiac events

Author

Cornélissen G., Halberg F., Singh R.B., Manukyan L., Khalilov E., Muller C., Quadens O., Barreto L.M., Wang Z., Wu J., Zhao Z., Dusek J., Fiser B., Homolka P., Prikryl P., Siegelova J., Strestik J., Amory-Mazaudier C., Berger S., Hecht K., Jozsa R., Pati A.K., Singh R.K., Carandente F., Maggioni C., Laffi G., Perfetto F., Rostagno C., Tarquini R., Salti R., Fujimura A., Kumagai Y., Mitsutake G., Otsuka K., Watanabe Y., Weydahl A., Chirinos J., Blank M., Denisova O., Breus T.K., Blagonravov M.B., Chibisov S.M., Masalov A., Malkova I., Mitish M., Syutkina E.V., Turti T., Zaslavskaya R.M., Gvozdjakova A., Zeman M., Revilla M., Ulmer W., Valenzi V., Bogdanov V., Gorgo Y., Delyukov A., Wilson D., Simpson H., Hillman D., Sothern R.B., Bingham C., Hawkins D., Holte J., Johnson D., Adams C., Beaty L., Nolley E., Engebretson M., Bakken E., Holley D., Sundaram S., De Prins J., Delcourt A., Deruyck C., Toussaint G., De La Peña S.S., Mikulecky Sr.M., Cornélissen G., Halberg F., Singh R.B., Manukyan L., Khalilov E., Muller C., Quadens O., Barreto L.M., Wang Z., Wu J., Zhao Z., Dusek J., Fiser B., Homolka P., Prikryl P., Siegelova J., Strestik J., Amory-Mazaudier C., Berger S., Hecht K., Jozsa R., Pati A.K., Singh R.K., Carandente F., Maggioni C., Laffi G., Perfetto F., Rostagno C., Tarquini R., Salti R., Fujimura A., Kumagai Y., Mitsutake G., Otsuka K., Watanabe Y., Weydahl A., Chirinos J., Blank M., Denisova O., Breus T.K., Blagonravov M.B., Chibisov S.M., Masalov A., Malkova I., Mitish M., Syutkina E.V., Turti T., Zaslavskaya R.M., Gvozdjakova A., Zeman M., Revilla M., Ulmer W., Valenzi V., Bogdanov V., Gorgo Y., Delyukov A., Wilson D., Simpson H., Hillman D., Sothern R.B., Bingham C., Hawkins D., Holte J., Johnson D., Adams C., Beaty L., Nolley E., Engebretson M., Bakken E., Holley D., Sundaram S., De Prins J., Delcourt A., Deruyck C., Toussaint G., De La Peña S.S., and Mikulecky Sr.M.

Abstract

[No abstract available]

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