SIRIUS Experimental Research
Carlos Lobo – Accelerators science researcher and LCLS User Organization Committee Member. March 2012, Barra do Jucu, Brasil.Short presentation.
Sirius B
Mass: equal to the SunDiameter: 90% of Earth
Orbit: 50 yearsTemp.: 25.000 C
Gravity: 400.000 that of Earth10.000 times dimmer from Sirius A
Best known by White Dwarf
What are the central tasks of our Sci&Tech to do that job ?
Theoretical Approach => Experimental Approach => Peer Review Validation =>
Enter Computer Simulations Games Inception Stimulation( to youth)
Light NanoSpacecraft Theoretical Design
Programmable Ancestrality Symmetric Metamaterials
Bright Light Dark Light DualityDual Injection SystemPropellants RecursivityEntangled Complexity
Self ReversibilityISORG-like Dimensionality
Ultrafast Connectivity/InteractionRelative Confinement
NanoSpacecraft Autonomy
Nanospacecraft Components/Artifacts
Carbon NanotubesGraphene Exoskeleton Profile
Hot/Cold Injection SystemMicropropulsion –> in Two Stages
ControlsPhotoproduction Artificial Intelligence
Micro Black Hole SimulationGalaxy Nucleous Synchronization
Communications through NanoAntennas ArrayNanoSpacecraft Nucleous Design
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Under the Inspiration and Energy of our teachers and masters, S. Dumont, Albert Einstein, H. Minkovsky, W. DeSitter, S. Chandrasekhar, Cesar Lattes, L. Landau, David Gross(KITP), Frank Wilczek(MIT), G. 't Hooft (ITP-SPIN), Claudio Pellegrini(UCLA), Persis Drew(SLAC), J. Maldacena(MIT), Mikael Eriksson(Max-Lab), Davidson Cury and Credine(Computer Scientists-UFRGS), Ronaldo Mourão, Edgard Weckert(DESY), Yves Petroff(LNLS), AEB (Marco Raupp-Ministro), N. Yamamoto (KEK), W. Henning(DoE), K. Novoselov and A. Geim, chinese scientists and CBPF. Ex-President Lula, Presidenta DILMA
Scientists that run Science
“We seek solutions. We don’t seek – dare I say this? – just scientific papers anymore.”
Steven Chu-DOE Secretary
Marco RauppMinistro CTI- Presidenta Dilma
Obama Review make Cuts on Mars Program Funding (14.02.12 )
One way to faire NanoScience !?
From Simple to Complex
So, What’s the next step ... Beyond Humanity Best Dreams ?
- Not to create a “US State on the Moon”
- Not to “Fire People” from their jobs X Planet Sustainability Commitment
- Not funding an expensive Mars Project
Maybe →
Only in portuguese. I do not have enough time to translate, sorry.3.2) O que formulei estabelece, (creio eu), um novo paradigma para sistemas de injeção e propulsão em nano-escalas propiciando o uso calibrado das 4 interações fundamentais num mesmo framework experimental. A execução do projeto potencializaria a convergência das teorias em física para sua unificação experimental e teórica.
Primeiro, sistemas de injeção e propulsão de partículas aceleradas já atingem velocidades próximas a da luz, em particular nos aceleradores laser plasma.
Segundo, quasi-radiação Hawking foi produzida em laboratório pela galera do D. Faccio (3).
Terceiro, colisão de partículas produz um propelente original - quasi-Quark Gluon Plasma com propriedades absolutamente inovadoras.
Quarto, a produção de feixes de XFELs (raios X livres de elétrons) é obtida em fontes de luz convencionais de 4ª geração: LCLS, FLASH, SACLA.
Quinto, sistemas de modelagem computacional permitem simular quase todo tipo de processo e nanodispositivos.
Sexto, o grafena é um material modelável em 2D facilitando cálculos complexos de estruturas em 3D e sua composição química nos permite construir o exoskeleton da nanospacecraft
através de feixes de clusters de partículas.
Sétimo, pequenas alterações no design dos atuais aceleradores de partículas facilitariam o lançamento de verdadeiros bólidos de partículas agregadas em clusters de nanoestruturas em base ontológica para o espaço interestelar.
Oitavo, a descoberta do supermassivo buraco negro no centro de nossa galáxia com propriedades e dinâmica quase definidas estabelece parâmetros para nossa compreensão sobre modelagem de sistemas polivalentes análogos. O lançamento do NuStar Telescope nos próximos dias aprofundará as informações sobre o coração da galáxia.
Nono, a simulação de um toroide rotacional carregado eletricamente com pequena massa pode ser realizada em sistemas computacionais apropriados, como a realizada por Lars Hernquist, Chris Hayward, Phil Hopkins astrônomos vinculados ao Smithsonian da Harvard. Tema estudado por R. Spivey desde 2000.
Décimo,, a interação plasma e holografia pode ser simulada/visualizada em dispositivo de projeção laser/holográfica apresentado em conferencia do IEEE( 2010) por E. Buckley.
Décimo, primeiro, inteligência artificial baseada no sistema da visão é tecnologia disponível.
Décimo, segundo, alguns programas já usam a metodologia do complexo DNA para controlar mutações em sistemas de longa duração, como Oleg Gang demonstrou na 21ª Reunião Anual dos Usuários do LNLS. Em especial para atitude/autohealing/controle/agregação/espalhamento de clusters de partículas.
Décimo terceiro,, todo documento se dirige ao código. É ele que, afinal, dita a execução e compilação do programa de pequenos programas. Neste sentido, apresento uma introdução ao Pegasus baseadoespecialmente no Vorpal, Geant4, Phytia, Genesis(XFEL), Chimera(QGP) e...
Foguete de plasma
“Foguete que obtêm o impulso pela aceleração de um plasma num campo magnético. As longas viagens interestelares irão usar foguete de plasma desde que sejam capazes de atingir velocidades muito altas por um longo período de tempo.”
Ronaldo Rogério de Freitas Mourão, Dicionario Enciclopédico de Astronomia e Astronáutica, 1995.
Holographic Plasma Nanospacecraft
Holographic laser projection X-rays filaments produced by AdS/CFT supermassive black hole stable model under 2D/3D multilayer graphene lens exoskeleton and nanoplasma crystal environment constrains were applied to shape ontological artifacts and components of a micro/nano-spacecraft core. At ignition level, an experimental Launch Hall station could be structured near Free Electron Lasers-FEL machine and Laser Plasma Accelerators using its combo beams of particles and collisional materials as holographic plasma substrates which keep up 'stimulated analogue Hawking radiation', one of injection/propellant source.i
The ultrafast process generates a secondary propellant, quasi-Quark Gluon Plasma, that will be used to fueled long term operations of a rhodopsin-based molecular subsystem powered and controlled by DNA. Photons, nuclear electron crystals and molecules activated through photoreceptors isomerization are transduced by nanoprocessors matrix below autonomous inheritance of gauge hierarchy. An outlined artificial intelligence should interacts with dynamical modes of dense nuclear stars cluster surrounding the coherent oscillations of toroidal black hole in Galaxy center. The challenge is to deploy an accelerators science instrument traveling through holographic superconductor by near c velocity.
Keywords
AdS/CFT, toroidal black hole model, plasma, holographic laser projection, quasi-Hawking radiation, graphene lens, Launch Hall, XFELs, nanospacecraft, qQGP, nuclear electron crystals, rhodopsin, DNA, nanoprocessors, holographic superconductor, near c velocity, LNA, INPE, AEB, SLAC-LCLS/FACET, CERN-LHC, DESY-FLASH, RIKEN-SACLA, SIRIUS.
Those Substracts of Our
Modern Ships of Discovery
Fuel the Dual Injection System
of the
Nanospacecraft.
“Accelerators research and development is Science in itself”
Walter Henning
Accelerators for America's Future Symposium
Claudio Pellegrini projected LCLS
“As working physicists we know that the laws of nature we study are apprehended (tested and validated by independent experiment) the same by men and women, and by people in every culture. The scientific revolution and continued discoveries give knowledge about the universe that can be comprehended and used by all”
Spacecraft Technology State of Art
Micro = < 50 kg – 10 kg
Nano = < 10 kg – 1 kg
Pico = < 1 kg – 0.1 kg
A 10 kg spacecraft with the performance of a 200 kgspacecraft will cost approximately the same
Source: European Strategy for Nanospacecraft TechnologyEuropean Spatial Agency
The message of the Quantum
“ … The distinction between reality and our knowledge of reality cannot be made. Reality and information could be two sides of the same coin.”
Anton Zeillinger, Institute of Quantum Optics and Quantum Information, Nature, 2005.
Some references [~3.000]
1) M. Millis, Progress in revolutionary propulsion physics, 61 International Astronautical Congress, 2010. [+ 50 papers].
2) F. Belgiorno et. al., Hawking radiation from ultrashort laser pulse filaments, arXiv:1009.4634v1 [gr-qc], 23 Sep 2010.
3) D. Brushi et. al., Voyage to Alpha Centauri: Entanglement degradation of cavity modes due to motion, Phys. Rev. D 85, 061701 (2012).
4) C. Lobo, Holographic Plasma Control Program, ICALEPCS-09.
5) C. Lobo, Laser Plasma Accelerators: Holographic Plasma Hybrid Case, 21 RAU-LNLS, INIS-AEIA, 2010.
6) C, Lobo, Design, Injection and Control of X-FEL Nanobeams at LCLS; 2010.
7) C. Lobo, Nuclear Clusters of Electrons and FELs at LCLS; 2010.
4) Holographic Plasma Control Program
The LHC is embedded by a cosmic superconductor for currents that couple to electroweak particles located in dust plasma sun-galaxy environment. LHC, as baryonic-made nanoplasma dual-ring running through data management processes and interactions, cause weak connectivity in hardware control system, like cumulative field errors of superconducting magnets and global buckling. It’s outlined a program module that assembly ontological conceptual parameters. The beam line is defined by filamentary plasma parameters with Dustt/MAD. A reference low-emitter x-ray beams to forbid pulsed planar expansion of ionized nanoplasma off a surface at injection system is set. Dustt/Vorpal/EJB programs simulate the plasma-cell. Forth stacks the antenna sensor. Nanocalibration of optical micro bunches must constrain beam interlocks override. A thermionic 3D X-ray holography plasma mirror monitor retranscript channel-oriented optical layout. Installing motion-compensated frame interpolation into J2EE, locked lasers to calibrate PLC with attosecond reply timing at Scada servers, stochastic grid maps for arc-sector visual attention at Oracle servers could describe internal transitions ensuring safe operations.(7)
Approved by ICALEPCS-09, PAC-09 and Accelerators for America’s Future Symposium - Discovery Science,Lecture and Poster.
4) Laser Plasma Accelerators: Holographic plasma hybrid Case
Different Plasmas phases, modes, composition and seizes fill our “cosmic superconductor for the currents that couple to W and to Z bosons”, the not-empty space. It´s paradigmatic that that state of matter also define the most powerful (going to Tev), ultrafast, table top and cheap accelerators on the earth: the laser plasma accelerators working near a Free Electron Lasers Facities. These machines will be quickly used throughout the world because it will lead the state of art in developing methods of the implantation of ions in the next generation of (nano)chips. Inside a photocathode injector, an electron gun produce powerful ultrabright nano-photonics
beams in dynamical phases through a) a photonic FEL beam line design, b) a x-ray oscillator, c) an experimental stochastic temporal behavior measured by a magnetic spectrometer and a scaled-like wire scanner. Pulses of ultrafast laser(X-ray, UV) hits a bubble of plasma crystal and another of dust plasma. The collisions in high energies produce plasma waves that could drive electrons in a wake field. But also produce holographic tools-artifacts: a multiwavelength cell with intrinsic signals that govern the interaction inside each bunch of particles at Gev energies.
Cont.
Holographic environment needs a 2D reference simulation tool to build the ontology of the beam and the bunch of the particles in one nanobot group. It starts an inception sequence on a phenomenological model. We model, for example, a 6D nano-beam(1-electrons(cloud) and 2-photons( Vuv and X-rays), 3-protons at environments of He and Ar plasmas) orbit inside a plasma wakefield centering position and trajectory(HOM) measured by cherenkov radiation angle. Observation of toroidal nanobucklings assemble the stacks to fix “instabilities” that will be tunning and constrained by the interaction with a giant magnetic field plasma radiation ejected from galaxy center. Automatic tunning of a single bunch transient beam phase which emittance of energy injector and optics calculation occurs at injection point of Linac Facility. Filamentation and self-compression of the beam naturally condense the gradient emittance and beam energy. Single and multiple bunches characterization in terahertz radiation and interaction regions drive the waveguide design. Electron energy spread in cyclotron operations is the target toroidal design to stored beam current with bremsstrahlung radiation process. A “pseudorandon pulse sequencer” will be overlapped by a long range dna sequencing algorithm. The challenge is to catch up Tev scales through modeling an injection control system with radio galaxy core parameters translated to (nano)parameters which are assembled and embedded in molecular machines driven by light in graphene meta-material.
5) Design, Injection and Control at LCLS-FEL NanoBeam
An ICALEPCS-09 review pointed out that plasma control was guided to a central instrumental position in large experimental physics control systems. I started with “Holographic Plasma Control Program” to relieve some suggestions on LCLS beam measurement and instrumentation enhancing the machine power to near 1 Tev through the description of an application to the Injection System using a meta-material* and, at the same time, to compress the quasi-filamentary FEL-beam (bunches of clusters) to (x) nm parameters by implementation of an hybrid code of a cluster of DNA-like cells embedded at sequencer schema and finally, to ‘communicate’ real time with the wavefront( head and tail too) using QCD-EW and nuclear interactions of the running facility with the designed nano-filamentary beam. Plasma-QCD-electromagnetic interactions drive the (holographic) radiation production derived from QGP foundations. A holographic embedded cell is naturally created from high energy plasma-Laser-PW) interactions. A laser-plasma simplified description of the beam, allow one to implement a coherent control of clusters(charge build-up, heating, ionization, expansion, explosions) real-time interaction between the bunches (and electrons-photons clusters inside), the space and, the beamlines, will be presented in an entangled environment.
6) Nuclear Clusters of Electron Crystals
Nuclear clusters of electron crystals run on SSRL-LCLS-FACET complex, govern the light interaction with matter in neuro-vision systems, occur under high energetic cosmic rays and, could be inserted at ITER, EPICS and Geant4 simulation. The above resources are used to build a conceptual design of embedded short and long beams and to extract THz light in a n-dimensional holographic-plasma processor that generate nanobeams which synchronize the ultrafast electron crystals through three pneumatic nano-actuators positioned inside the LCLS gun system, within FACET and, 30 m past the end of the undulator; a thin beryllium foil at 45° to the electron beam inserted allowing: 1) Electrons and hard x-rays pass through also, 2) THz light goes downward through a nanodiamond + graphene waffle window to a holographic plasma driver arriving tens of nanoseconds after the x rays. Thus, a re-injection nano-system will be assembled as electrons crystals and XFELs pulses hits the Beryllium foil between a graphene multi-layers coated mirrors that accelerate the electron crystal clusters to catch up Tev energies and, has a DNA-structured sequencer for ontological stochastic real-time machine vision control. All processes are described through an inflexion-like user interface accelerator science driver: a nuclear multi-bunch clusters of particles embedded onto a holographic cell within dust nanoplasma crystal under experimental constrains. So, the HSTelescope, Chandra, FermiLat, Auger and others humanity tools demonstrated that the universe could be also described through holographic plasma background.