Papers by Mirosław Kozłowski
arXiv (Cornell University), Jul 3, 2011
In this paper the thermal processes generated by yoctosecond (10 -24 s) laser pulses in QGP are i... more In this paper the thermal processes generated by yoctosecond (10 -24 s) laser pulses in QGP are investigated. Considering that the relaxation time in QGP is of the order of 1 ys it is shown that in QGP the yoctosecond laser pulses can generate the thermal waves with velocity v = c (0.3 fm/ys).
Journal of Consciousness Exploration & Research, Oct 22, 2017
Scientists have known for some time that ethanol can kill cancer cells, but several limitations h... more Scientists have known for some time that ethanol can kill cancer cells, but several limitations held it back from becoming a broadly used treatment. A team at Duke University has recently developed a new type of ethanol solution that can be injected directly into a variety of tumors to potentially offer a new, safe, and cheap form of cancer treatment. In this paper the mathematical model for tumor growth, based on Boltzmann type equation is formulated. The tumor growth factor is defined. The tumor cells density is calculated. It is shown that the tumor evolution strongly depends on the growth factor k. For k<0.5 tumor density oscillate and tumor is in the " hesitate" state. For k>0.5 tumor lost the oscillatory character and grows abruptly and emits cells to the host body. We argue that the oscillation of the density of tumor crates the tumor waves which can be coined as the tumor conscious waves. The tumor waves "inform" host consciousness. We argue that ethanol influenced the consciousness of tumor and reset the interaction of tumor -host consciousness. The ethanol injected to cancer tumor preumbly change the growth factor k.
Journal of Consciousness Exploration & Research, Aug 3, 2017
In this paper we developed new hypothesis on the nature of human brain waves and Schumann waves. ... more In this paper we developed new hypothesis on the nature of human brain waves and Schumann waves. We define both waves as the Consciousness Schuman Field (CSF). To that aim we formulated Klein-Gordon equation for CSF. We show that two new parameters, the hight of potential barrier and relaxation time, describe the CSF. Assuming relaxation of brain in the order of 1sec, we obtain the hight of human brain potential barrier of the order of 10 -15 eV. The same value was obtained in our ealier papers for the temperature of the brain and Schuman waves.
Journal of Consciousness Exploration & Research, Jun 10, 2017
In this paper, we analyze the importance of the fields: Yukawa (nuclear level), Bohr (atomic leve... more In this paper, we analyze the importance of the fields: Yukawa (nuclear level), Bohr (atomic level), Planck (Universe level-non human) and Schwinger (void structure). The interrelations of these fields guarantee the stability of the Universe and matter within. Based on our results published in this journal, we put forward the study of the binding energy of the human brain. We showed that the human mind is the field of consciousness with total energy 10 30 GeV. This consciousness field produces the fifth consciousness force with the range 10 5 km and strength 10 - 47 GeV/fm. The range of the fifth force is of the order of Moon-Earth distance. We argue that the Moon is the mirror (source) of Schumann and consciousness waves.
Journal of Consciousness Exploration & Research, Dec 1, 2016
In this paper, we formulate the hypothesis that brain waves and Schumann waves are quantum fields... more In this paper, we formulate the hypothesis that brain waves and Schumann waves are quantum fields with elementary excitation energy, Psychon with E Psychon =10 -15 eV. With the Psychon entity, we formulate the model for calculation of normalized energy spectra for brain and Schuman waves. The model calculations are in very good agreement with measured energy spectra for both Schuman and Brain waves.
arXiv (Cornell University), Apr 1, 2008
Following the method developed in monograph : From quarks to bulk matter Hadronic Press 2001the m... more Following the method developed in monograph : From quarks to bulk matter Hadronic Press 2001the master equation for second sound in nuclear matter is obtained and solved. The velocity of second sound is calculated
arXiv (Cornell University), Mar 3, 2008
In this paper the heat transport of attosecond electron pulses is investigated. It is shown that ... more In this paper the heat transport of attosecond electron pulses is investigated. It is shown that attosecond electrons can propagate as thermal waves or diffused as particle conglommerates ,Proca equation as type equation for the thermal transport of the attosecond electron pulsem is formulated
arXiv (Cornell University), Aug 1, 2003
, p. 074801-1) offers the possibility of the investigation of electron-positron structure of the ... more , p. 074801-1) offers the possibility of the investigation of electron-positron structure of the space-time. Following our results (From Quarks to Bulk Matter, Hadronic Press, 2001) we analyze theoretically possibility of the penetration of zeptosecond laser pulses (10 -21 s) through space-time.
arXiv (Cornell University), Apr 18, 2007
In his paper the heating of the fullerenes by ultra-short laser pulses is investigated. The therm... more In his paper the heating of the fullerenes by ultra-short laser pulses is investigated. The thermal Heaviside equation is formulated and solved for the Cauchy initial condition The effective thermal relaxation time is calculated..
arXiv (Cornell University), Sep 1, 2008
In this paper the dynamics of the interaction of attosecond laser pulses with matter is investiga... more In this paper the dynamics of the interaction of attosecond laser pulses with matter is investigated. It will be shown that the master equation: modified Klein-Gordon equation describes the propagation of the heatons. Heatons are the thermal wave packets. When the duration of the laser pulses is of the order of attosecond the heaton thermal wave packets are nondispersive objects. For infinite time the heatons are damped with damping factor of the order of relaxation time for thermal processes.
arXiv (Cornell University), Aug 30, 2007
In this paper the Lorentz transformation for temperature is derived and discussed. Considering th... more In this paper the Lorentz transformation for temperature is derived and discussed. Considering the hyperbolic heat transport equation it is shown that T( prim) = gamma T, where gamma is the Lorentz factor, T denotes the temperature in the rest system and T(prim) is the temperature in the moving system (rod).
arXiv (Cornell University), Nov 26, 2006
In this paper nonlinear Klein-Gordon equation for heat and mass transport in nanoscale was propos... more In this paper nonlinear Klein-Gordon equation for heat and mass transport in nanoscale was proposed and solved. It was shown that for ultra-short laser pulses nonlinear Klein-Gordon equation is reduced to nonlinear d`Alembert equation. The implicit solution of the d`Alembert equation for ultrashort laser pulses was obtained
arXiv (Cornell University), Oct 2, 2008
In this paper considering quantum heat transport equation (QHT) formulated in our earlier papers ... more In this paper considering quantum heat transport equation (QHT) formulated in our earlier papers the temperature for universes with G < 0 is calculated. As the solution of complex QHT (Schrodinger type equation), the temperature is complex also. We argue that due to anthropic limitation of the observer ImT(r,t)=0 From this condition the discretization of space-time radius R, velocity of the universe expansion v, Hubble parameter H and acceleration of the expansion a are calculated. The agreement with observational data for our Universe is quite good.
arXiv (Cornell University), Jul 9, 2003
In this paper the aging of the Universe is investigated in the frame of quantum hyperbolic heat t... more In this paper the aging of the Universe is investigated in the frame of quantum hyperbolic heat transport equation. For the open universe, when t → ∞, h → ∞, c → 0 and fine structure constant, α, is constant.
arXiv (Cornell University), Mar 13, 2004
In this paper the solution of the hyperbolic Klein-Gordon thermal equation are obtained and discu... more In this paper the solution of the hyperbolic Klein-Gordon thermal equation are obtained and discussed. The analytical form of the solution -Green functions are calculated for one and three dimensional cases. It is shown that only in three dimensional case the undisturbed, with one value of the velocity, thermal wave can be generated by attosecond laser pulses. The conductivity for the space-time inside the atom is calculated and the value σ 0 = 10 6 1 Ωm is obtained.
arXiv (Cornell University), Oct 21, 2011
In this paper the quantum Cattaneo wave equation for ultra-short laser pulses interaction with ma... more In this paper the quantum Cattaneo wave equation for ultra-short laser pulses interaction with matter is obtained. The explicit formulae for electron and nucleon gases are presented
arXiv (Cornell University), Apr 21, 2005
It occurs that when we attempt to melt the nucleon in order to obtain the free quark gas, or QGP ... more It occurs that when we attempt to melt the nucleon in order to obtain the free quark gas, or QGP fluid the mass of the heat quantum (heaton) is equal to the π-meson mass.
arXiv (Cornell University), May 4, 2008
In this paper the proposal for the study of the second sound in medium is presented. The master e... more In this paper the proposal for the study of the second sound in medium is presented. The master equation is derived and its solution is obtained, The properties of alloys with very long relaxation times , as the examples for the proposed study are discussed
arXiv (Cornell University), Jul 2, 2008
The ultra-short laser pulses interaction with tissue is investigated. The hyperbolic diffusion th... more The ultra-short laser pulses interaction with tissue is investigated. The hyperbolic diffusion thermal equation is developed and solved. It is shown that the femto and attosecond laser pulses generate the thermal wave with velocity of order of 10-3 m/s.
arXiv (Cornell University), Apr 3, 2006
In this paper the continuous laser beam interaction with matter is investigated. The velocities o... more In this paper the continuous laser beam interaction with matter is investigated. The velocities of the thermal propagation are calculated. It is shown that for the value of the product , is the angular frequency of the laser beam and 1 > ωτ ω τ is the relaxation time for thermal phenomena the Heisenberg uncertainty 2 h VT P > is fulfilled, V is the potential energy of the heat carriers and is the period of the laser beam.
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Papers by Mirosław Kozłowski