jueves, 3 de marzo de 2011

for graphene without inner structures at each hexagonal cluster but with this kind of circular pattern the cuantical sink appears at its center if connected to ground so minimum of energy goes radially from outside to the center if is ground released the film behaves like a charge membrane in which can be measured 2d waves its like a topological computer it can be used effect moesser to detect by release gamma rays at applying X rays at isotopical graphene at its resonator atomic structure the oscillation position of the membrane.
 same analogy but this time in a non-circular, squared cell, by repetitions od pattern a processor is created (underlying figure at red,blue red means dopated N cells blue dopated P alterned) in this case should be detected the holes and hills of the voltage (center of strred pattern) /center of circular pattern) that depending on boundary conditions can be a sink or generator of E field voltage 0-4.5V
 The analogy but this time with nanotubes and configurable and programable P N P,N P N  layer it works as well as lcd displays has a squared cell that groups several nanotubes that after aplying a z-index positive or negative E field makes the near nanotubes to move upwards or downwards polarizing and behaving as a promedia for each cell as a P or N block (composed of many NP,PN outside PN,NP inner respectively displaced) then once configurated the pattern of blocks the blocks behave as same as above pictures,
note at down picture any configuration can be taken, for example superposition of patterns:
 i.e. above topological squared + the same moved 1/2 down and right, as simulator of qubit or again a membrane simulator based on submembranes simulator so superimposing two circled patterns we obtain a two qubit simulator by nxn superposition nxn qubits being the countour conditions of one pattern the singular maximum minimum sink hill of the others and viceversa.
- Ocultar texto citado -

2011/2/26 Daguel none <davidmiguelblog@gmail.com>
in fact with joining of 4 cells can be created the superposition of quantum states that in promedia are 0,1 - 1,0 - 1,1 - 0,0 as karnaugh map as result of two qubits calculus at the same time so maps of regions of 4x4 can be created or nxn for n qubit analogy


2011/2/26 Daguel none <davidmiguelblog@gmail.com>
http://onlinelibrary.wiley.com/doi/10.1002/pssb.201000314/full
each subcell on the upper metal plate that has an E z-index up or down has a promedia of effective gaps/electrons a result value P or N for the cell there is only need to calculate the length of the nanotubes and the strong of the E field to reach an treshold detecttable value 1-4.5V it can be represented any kind of circuit in the nanotube machine

2011/2/26 Daguel none <davidmiguelblog@gmail.com>

this is the idea but in this case with nanocarbontubes , Graphene have less possibilities to create a inner cell packed structure
thank you very much and best regards
2011/2/25 Daguel none <davidmiguelblog@gmail.com>

the way to read the process data noncuantically should be http://www.physorg.com/news187430392.html
cuantically http://en.wikipedia.org/wiki/M%C3%B6ssbauer_effect making isotopes of carbon to create isotopical graphene http://orgs.unca.edu/medc/Resources.html

    Graphene Transistors

  1. Graphene transistors are sensitive and resistant to radiation.
    Graphene transistors are sensitive and resistant to radiation.
    The U.S Department of Homeland Security (DHS), Defense Threat Reduction Agency (DTRA) and the National Science Foundation (NSF) paid for "high-risk, high-payoff" research of graphene-based sensors containing transistors. Graphene field effect transistors (GFET) were studied because graphene shows high sensitivity and resistance to temperature and radiation in plasma during the manufacture of semiconductors. Four prototype transistors were tested. Silicon-absorber-based and silicon-carbide-absorber-based GFETs measured voltage drops and X-ray absorption. This study concluded that GFET transistors are sensitive to X-rays and light particles and can be used to detect and measure radiation. Graphene may be effective in monitors in national borders and ports.












2011/2/24 Daguel none <davidmiguelblog@gmail.com>
and this http://www.scitopics.com/Direct_imprinting_of_microcircuits_on_graphene_oxides_film_by_femtosecond_laser_reduction.html
thank you very much and best regards Mr Proffesors!!!


2011/2/24 Daguel none <davidmiguelblog@gmail.com>
the lase can if cant be small lasers can be just one applying http://en.wikipedia.org/wiki/Newton's_rings


2011/2/24 Daguel none <davidmiguelblog@gmail.com>
http://en.wikipedia.org/wiki/Curie's_law
http://nextbigfuture.com/2008/08/graphene-enhanced-plastics.html as inner dopating composite that can be heated through a light of graphene diode laser

2011/2/24 Daguel none <davidmiguelblog@gmail.com>

the idea is to create a logic Maxterm, Minterm Karnaugh programable maps logic programable languages or circuits based in membrane boundary conditions

thank you very much and best regards