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Quantum Tech Summit 2020

Introduction to Quantum Technology

Quantum Technology, as we know is very well-known for its fast and powerful performance. But what about the availability in two different places at the same time. That is called the uncertainty about the technology as it is making the subject more curious as well as weird. It puts a light to the field of the smallest discoveries. It describes atoms and molecules even at the smallest so that we can understand the bigger universe at largest. Quantum technology shows us the probability to locate an atom in a different location at the same time. It describes us the spin, relativity, wave properties, black body radiation etc. We can transform our technical aspect to another level by creating an environment in Quantum Technology research and development and can make our world much faster than ever, secure than ever and powerful than ever.

About the Quantum Technology Conference

Conference Series llc LTD, the Global leader in organizing conference events, warmly invites all participants from all over the world to attend the curiosity driven scientific event i.e.  Quantum Technology Summit on November 18-19, 2020 at one of the global power city of the world, i.e. Beijing, China. Our team is well known for delivering a good number of prestigious conferences, from cutting edge technology to newest utilization of scientific principles presented by the renowned Scientists and professors as well many passionate people.
 
Why You should not miss the Quantum Technology Conference:
 
Conference Series deeply believes that it would be a great platform for both senior and younger scientists and also for the upcoming ones to learn and share the knowledge we have today in Quantum technology and to make a distinct vision towards the future of the subject.
Here, the conference is promised to organize a remarkable meet up with whole new and interesting innovative sessions and to meet new awesome passionate that to be some of the best quantum physicists in the world, where one can share his/her  visions and ideas and make a conversation about the analytical concepts of Quantum Technology.The conference would strongly help to strengthen the networking and the quantum physics community in a way to make it more visionary. We will work together for poster presentations, keynote speaking, and other opportunities that will help to build a scientific career for the new commerces in the house. So now hereby, the “QuantumTech summit 2020” welcomes you, passionate people, to join the knowledge marathon that is going to make you think the technical depth in Quantum Technology.
 
Target Audience:
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Sesssions and Tracks of Quantum Technology

Track 01: Quantum Information Processing and Computing

Quantum Information Processing and computing derives the processing of data and therefore computing based on quantum technology and mechanics. The traditional computers we use usually process the input using the binary digits called as bits like 0 and 1, but the quantum computer performs the tasks using the quantum bits called as Qubits, which exists in a superposition state of an atom. Qubits can be implemented with atoms, ions, photons or electrons in a suitable environment that work together to act as a smart processor. Due to the spin of the electron in the atom, a quantum computer can contain multiple states simultaneously, hence they provide inherent parallelism. This technique will open the opportunity to solve much bigger and complex problems in much lesser time than a traditional computer. Here is the long way ahead with genuine quantum effects such as superposition and entanglement.

Related Conferences:

World Congress on Physics, March 20-21, 2020, Paris, France | International Conference and Exhibition on Quantum mechanics and nuclear technology, May 21-22, 2020, Athens, Greece | 13th International Conference on Optics , Laser and Photonics, April 15-16, 2020, Berlin, Garmany

Track 02: Quantum Chromodynamics (QCD)

Quantum Chromodynamics is that the concept of the strong interaction between quarks and gluons, the basic particles that form up composite hadrons i.e. the proton, neutron and pion. QCD is a kind of quantum field theory known as a non-abelian gauge theory, with symmetry cluster SU(3). The quantum chromodynamics analog of electric charge is a property known as Color. Gluons are the force carrier of the idea like photons are for the electromagnetic force in quantum electrodynamics. The theory is a vital part of the quality Model of particle physics.

QCD exhibits two main properties:

  • Color confinement-This is a consequence of the constant force between two color charges as they are separated: To increase the separation between two quarks within a hadron, ever-increasing amounts of energy are required. Eventually, this energy produces a quark-antiquark combination, turning the initial hadron into a pair of hadrons instead of producing an isolated color charge. Although analytically unproven, color confinement is well established from lattice QCD calculations and decades of experiments.
  • Asymptotic freedom - a gentle reduction between the strength of interactions between quarks and gluons as the energy scale of these interactions increases (anc d the corresponding length scale decreases).

Related Conferences:

7th International Conference on Applied physics and space science, March 27-28, 2020, London, UK | 3rd World Congress on Quantum Mechanics and Nuclear Physics, sep 24-25,2020, Prague, Czech Republic | 16th International Conference on Optics , Laser and Photonics, Tokyo, Japan, April 15-16, 2020

Track 03: Quantum Simulation

Quantum Simulators allow the study of quantum systems that area unit troublesome to review within the laboratory and impossible to model with a mainframe supercomputer. In this instance, simulators are special-purpose devices designed to provide insight into specific physics problems. Quantum simulators may be contrasted with generally programmable "digital" quantum computers, which would be capable of resolving a wider category of quantum issues.

Related Conferences:

International Conference on Physics, March 09-10, 2020, Rome, Italy | International Conference On Quantum and applied physics, April 06-07, 2020, Dubai , UAE | World Congress on Physics, March 20-21, 2020 Paris, France

Track 04: Quantum Sensors and Quantum Metrology

A quantum Sensing Element is a device that has quantized energy levels, uses quantum coherence to measure the physical amount, or uses the trap to enhance measurements on the far side that are often finished classical sensors.it responds to a stimulus.

There are 4 criteria for quantum sensors:

  • The system has to have discrete, resolvable energy levels.
  • You can initialize the detector and you can perform readout (turn on and find an answer).
  • You can coherently manipulate the sensor.
  • The detector interacts with a physical amount and has some response to that amount.

Quantum Metrology is the study of making high-resolution and sensitive measurements of physical parameters with the assistance of scientific theory to clarify the physical systems, notably exploiting quantum web and quantum compression. This field guarantees to develop measurement techniques that provide higher exactitude than an equivalent measure performed in an exceedingly classical framework.

Related Conferences:

13th International Conference on Optics , Laser and Photonics, April 15-16, 2020, Berlin, Garmany | Geometry from the Quantum, jan 13-17,2020, UC Santa Barbara, United States | 7th International Conference on Applied physics and space science, March 27-28, 2020, London, UK

Track 05: Quantum Communication

Quantum Communication is another field of applied quantum physics related to quantum information processing and quantum teleportation. It is the most fascinating application is protective data channels against eavesdropping by mean that of quantum cryptography.

Quantum communication takes advantage of the laws of quantum physics to shield the information that will process or transmit through the technology. These laws allow particles—typically photons of light for transmitting data along with optical cables to take on the state of superposition, which means they'll represent multiple combos of one and zero at the same time. Those are known as Qubits. The principle advantage of qubits from a cyber-security perspective is that if a hacker tries to observe them in transit, their super-fragile quantum state collapses to either 1 or 0. This means a hacker can’t tamper with the qubits while not let go of a telltale sign of the activity.

Related conferences:

16th International Conference on Optics, Laser and Photonics, April 15-16, 2020, Tokyo, Japan | Quantum Technology International Conference, April 20 - 22, 2020, Twickenham Stadium, London | International Conference on Physics March 09-10, 2020, Rome, Italy

Track 06: Superconducting Quantum Computing

Superconducting quantum computing is that the formation of quantum computers using the superconducting electronic circuits.

These circuits have zero electric resistance, thus they are 60 to 100 times more energy-efficient than today’s chips. these chips also have a higher amount of processing power, the superconducting-chip that use so-called Josephson junctions have been clocked at 770 gigahertz. These are using Qubits in a superconductive state  , thus they are much secure and efficient than the  traditional chips.

Related Conferences:

World Congress on Physics, March 20-21, 2020, Paris, France | International Conference and Exhibition on Quantum mechanics and nuclear technology, May 21-22, 2020, Athens, Greece | 13th International Conference on Optics , Laser and Photonics, April 15-16, 2020, Berlin, Garmany

Track 07: Quantum Annealing

Quantum annealing is a higher-level procedure for finding the global minimum of the given objective function over a given set of candidate states. It is used widely for combinatorial optimization problems with many local minima. The procedure utilizes the quantum fluctuations to solve the problems having a discrete search space.

Quantum annealing which is also known as tempering or crystallization is analogous to simulated annealing, but in substitution of thermal activation by quantum tunneling.

Related Conferences:

7th International Conference on Applied physics and space science, March 27-28, 2020, London, UK | 3rd World Congress on Quantum Mechanics and Nuclear Physics, sep 24-25,2020, Prague, Czech Republic | 16th International Conference on Optics , Laser and Photonics, Tokyo, Japan, April 15-16, 2020

Track 08: Quantum Dot

Quantum dots are a few nanometers sized semiconductor particles having both optical and electronic properties. When the dots are illuminated by the UV rays, an electron can be excited to a state of higher energy.

Quantum dots are even referred to as "artificial atoms" having discrete electronic states and emphasizing their singularity. Quantum dots have the properties intermediate between bulk semiconductors and discrete atoms.Some of the potential applications of the quantum dot are including solar cells, LEDs, quantum computing and medical imaging.

Related Conferences:

International Conference on Physics, March 09-10, 2020, Rome, Italy | International Conference On Quantum and applied physics, April 06-07, 2020, Dubai , UAE | World Congress on Physics, March 20-21, 2020 Paris, France

Track 09: Quantum Thermodynamics

Quantum Thermodynamics addresses the continuous dialogue between Thermodynamics and Quantum mechanics. The all 4 laws of thermodynamics are presented as a quantum consideration.

Classical Thermodynamics is a theory of large scale macroscopic processes. Whereas quantum theory on a probabilistic footing relevant for a single particle. Thus quantum mechanics allows thermo dynamical concepts to be applicable on any scale.

Related Conferences:

13th International Conference on Optics , Laser and Photonics, April 15-16, 2020, Berlin, Garmany | Geometry from the Quantum, jan 13-17,2020, UC Santa Barbara, United States | 7th International Conference on Applied physics and space science, March 27-28, 2020, London, UK

Track 10: Post-Quantum Cryptography

Post-quantum cryptography better described as a public key safeguard against any attack from a quantum computer. Because a forecast shows that, most of the public keys can be easily broken by a strong quantum computer. Again the reason behind it lies in the problems; those are given by a traditional public key, like the integer factorization or discrete logarithm or the elliptic-curve discrete logarithm problem.

The above problems can be easily solved by a strong quantum computer running Shor’s algorithm. It is considered that the hash function and the symmetric cryptographic algorithms are relatively secure against an attack by a quantum computer.Post-quantum cryptography is the attempt to develop new kinds of cryptographic approaches and solutions that can be implemented using today’s classical computers but will help to protect the anonymous attacks from tomorrow’s quantum technology qubit computers.

Any new cryptography has to integrate with existing protocols, such as TLS. A new cryptosystem must weigh:

  • The size of encryption keys and signatures
  • The time required to encrypt and decrypt on each end of a communication channel, or to sign messages and verify signatures.
  • The amount of traffic sent over the wire required to complete encryption or decryption or transmit a signature for each proposed alternative.

Related conferences:

16th International Conference on Optics, Laser and Photonics, April 15-16, 2020, Tokyo, Japan | Quantum Technology International Conference, April 20 - 22, 2020, Twickenham Stadium, London | International Conference on Physics March 09-10, 2020, Rome, Italy

Track 11: Quantum Light Interface

Creating an interface, where data encoded in light, quantum devices that contain multiple optical spectra would share and process the data in a quantum network is called quantum light interface.One must thing required for this type of networking would be the scalability that says the ability to drive the input of a node using the output of another node.Quantum light-matter interface is so useful in quantum computing, quantum communications and quantum sensing.

This includes from single-photon sources for quantum communication to quantum memories for wavelength conversion.The protocols have been successfully demonstrated and for further increase in performance, a deeper understanding of the relevant noise and decoherence  processes needs to be gained.

Related Conferences:

World Congress on Physics, March 20-21, 2020, Paris, France | International Conference and Exhibition on Quantum mechanics and nuclear technology, May 21-22, 2020, Athens, Greece | 13th International Conference on Optics , Laser and Photonics, April 15-16, 2020, Berlin, Garmany

Track 12: Quantum Magnets

Quantum magnets are spin systems in which the spins interact via the well-known exchange interaction. The interaction is purely quantum mechanical in nature.

We can demonstrate the quantum fluctuations and compete for interaction in the quantum magnetism. Quantum magnetism could be a bit totally different from classical magnetism, the sort you see after you stick a magnet to a refrigerator, because the individual atoms have a property known as spin, which is distinct states (usually known as up or down). Seeing the behavior of individual atoms has been hard to do, though, as a result of it needed cooling atoms to very cold temperatures and finding a way, how to “trap” them.

Related Conferences:

7th International Conference on Applied physics and space science, March 27-28, 2020, London, UK | 3rd World Congress on Quantum Mechanics and Nuclear Physics, sep 24-25,2020, Prague, Czech Republic | 16th International Conference on Optics , Laser and Photonics, Tokyo, Japan, April 15-16, 2020

Track 13: Quantum Field Theories

Quantum field theory is the conceptual framework that combines the classical field theory, special relativity, and quantum technology and mechanics and then it creates physical models of subatomic particles and quasiparticles, in particle and condenses matter physics respectively. This theory treats particles as excited states of their corresponding underlying fields.

One of the demonstrative tools of quantum field theories is quantum electrodynamics, which provides a conceptual mathematical platform for predicting and understanding the effects of electromagnetism on the electrically charged matter at its all energy levels. Electric and magnetic forces are regarded as arising from the emission and absorption of exchange particles called photons.

Related Conferences:

International Conference on Physics, March 09-10, 2020, Rome, Italy | International Conference On Quantum and applied physics, April 06-07, 2020, Dubai , UAE | World Congress on Physics, March 20-21, 2020 Paris, France

Track 14: Quantum Spintronics

Spintronics is the best known as spin electronics. Quantum spintronics is different in the property from traditional electronics. In addition to charge state, electron spins are exploited as a further degree of freedom, thus gives us better storage and transferring facility of data.

Spintronic systems are most often found in dilute magnetic semiconductors (DMS) and Heusler alloys and are very useful for the next quantum technology that enables us the ultra-quantum computing.Spin transport electronics can have revolutionized traditional electronic devices as never before, especially when it comes to computing. While standard electronics use an electron's charge to encode information, spintronic devices rely on spin, which much more power-efficient than it consumes today.The most complex question plaguing is how the signal carried by particles with spin, known as spin current, decays over time! Hoping for the best in the upcomming conference for this question..

Related Conferences:

13th International Conference on Optics , Laser and Photonics, April 15-16, 2020, Berlin, Garmany | Geometry from the Quantum, jan 13-17,2020, UC Santa Barbara, United States | 7th International Conference on Applied physics and space science, March 27-28, 2020, London, UK

Track 15: Quantum paradox:

Quantum Paradox is a thought experiment conducted by the great scientist Albert Einstein that shows the unavailability of the complete information in a wave function. Hence the Copenhagen interpretation is unsatisfactory. Again resolutions of the paradox have great applications in interpretation in Quantum Mechanics. The concept was to predict both the position and the momentum of the wave-particle at the same time and more accurately. It also describes that the information would go faster than light if we would try to measure the one particle, though it is forbidden in the theory of relativity because measuring one particle would affect the other to prevent the accuracy and that involves the wrong phenomena that, information transfers faster than light.

Today this paradox phenomenon is involved in Quantum Entanglement which describes that when the groups of particles are gathered or interact with each other, then the quantum state of an independent particle cannot be described. Hence EPR paradox has a measure role in quantum technology.

Related conferences:

16th International Conference on Optics, Laser and Photonics, April 15-16, 2020, Tokyo, Japan | Quantum Technology International Conference, April 20 - 22, 2020, Twickenham Stadium, London | International Conference on Physics March 09-10, 2020, Rome, Italy

Track 16: Quantum Tunneling:

Quantum Tunneling is the phenomenon of quantum mechanics that describes the surmounting of subatomic particles through a potential barrier. It plays a vital role in the phenomena like a nuclear fusion in the sun, quantum computing and scanning the tunnelling microscope. Tunnelling can be explained as the quantum object can be known as a wave or as a particle in general. In this phenomenon, the quantum or the subatomic particles borrow energy from the surrounding to penetrate the potential barrier and hence the phenomenon cannot be explained by the classical mechanics. The phenomenon is giving a high value to quantum computing as it has the potential to optimize the energy consumption and the efficiency of a processor.

Related Conferences:

7th International Conference on Applied physics and space science, March 27-28, 2020, London, UK | 3rd World Congress on Quantum Mechanics and Nuclear Physics, sep 24-25,2020, Prague, Czech Republic | 16th International Conference on Optics , Laser and Photonics, Tokyo, Japan, April 15-16, 2020

 

Market Analysis of Quantum Technology

As we know, Quantum technology is emerging and growing rapidly like never before. Quantum technology will be the global market leader in the near future because the world-changing technology enables mankind a much faster and an exponential rate of speed to compute the datatransmits the data as well as protect the data. Thus many governments, industries are funding and promoting the technology very rapidly and very soon it will be the largest investing technology in the world.
For data and number point of view, It is shown in the "IDQ" reports, the quantum technology global market will hit the mark of $13B by 2023 with the highest rate of CAGR OF 26 to 30%.
We saw the quantum computer credibility and ability to go through a tremendous amount of calculation power and thus we are in the midst of a "quantum Supremacy Race", in the result, we will get the industry growing as never before for Quantum technology. The emerging part of the quantum technology is that it could totally transform the commerce industry, intelligence department and it has the potential to change completely the way we see the military affairs and strategic balance of power.
Advances in quantum technology architecture style, fault-tolerant algorithms and new fabrication technologies are currently reworking this “holy grail” technology into a sensible program poised to surpass ancient computation.
QUANTUMTECH 2020

                                                                        Source – internet(Quantum technology)

As shown in the graph and according to market research, the investments for Quantum technology are getting bigger and bigger day by day and just reached 1.5 billion$ in 2019. So it is estimated that the amount should and will get bigger by the year  2020 and 2021 and reach $5B.

 

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Keytopics

  • Atom Behaviour In The Technology
  • Automation
  • Basic Quantum Mechanics
  • Black Hole
  • Bose-Einstein Condensate
  • Bose-Einstein Statistics
  • Boson
  • Chromodynamics
  • Cold Emission
  • Communication
  • Computing
  • Elctronics Of Quantum Computing
  • Field Theory
  • GPS Using Q Computing
  • Hall Effect
  • Information Processing
  • Kinetic Isotop Effect
  • Light Interface
  • Logic
  • Machine Learning
  • Methodology To Get Quantum Cheap
  • Metrology
  • Molecular Activity And Research
  • MRI And Quantum Technology
  • Noise In Algorithm
  • Optics
  • Paradox
  • Particle Physics
  • Photon Gas
  • Photonics
  • Pipeline
  • Probability
  • Procedure Of The Theory
  • Qbits
  • Qiskit
  • Quantum Annealing
  • Quantum Conductivity
  • Quantum Cryptography
  • Quantum Decoherance
  • Quantum Dots
  • Quantum Energy
  • Quantum Entanglement
  • Quantum Fluctuation
  • Quantum Gravity
  • Quantum Logic Gate
  • Quantum Magnetism
  • Quantum Simulation
  • Quantum Spacetime
  • Quantum Supermacy
  • Quantum Thermodynamics
  • Quantum Tunnelling
  • Quantum Well
  • Qunatum Imaging
  • Random Sub-atomic Events
  • Schrodinger's Cat Hypothesis
  • Semiconductors
  • Sensing To UV Light
  • Sensors
  • Shrodinger's Equation
  • Space Research Using Quantum
  • Spin Of Atom
  • Spintronics
  • String Theory
  • Superconducting Spintronics
  • Superposition Of Atom
  • Teleportation
  • Theory Of Relativity
  • Transport And Dissipation
  • Tunnel Diod