Content on this page requires a newer version of Adobe Flash Player.

Get Adobe Flash player

Services

 

Nanochemistry:

- Functionalization of nanotubes
- Organiic synthesis
- Polyelectrolytes
- TEM imaging

Environmental chemistry:

- Analysis of pollutants
- Purification methods
- Soil and water samples

 

Research Areas

- Toxicology
- Energy Sciences
- Pollution dynamics
- Water pollution circulation
- Life cycle of pollutants
- Heavy Metals
- Molecular interactions
- Environmental remediation
- Waste management
- Exotic Materials

 

 

Fjordforsk A.S. Midtun, 6894 Vangsnes, Norway.
Org.nr: 911659654 | www.fjordforsk.no

Supersymmetry in quantum computing

 

Project partner:

 

Dept. of Mathematics "Giuseppe Peano" , University of Torino, Via Carlo Alberto 10, 10123 Tornio, Italy. Contact: Prof. Anna Fino.

 

Project duration: 2016 -

Project desccription:

Supersymmetry defines a physical method for classifying and calculating the properties of matter in a different fashion, compared to classical symmetry. Supersymmetry is still in its developmental phase, however it can be a critical tool for interpreting computational language, by devising its characteristics on anyons, low-dimensional systems and computational topology profiles. In this collaboration a method for correlating supersymmetric definitions with computational language is being studied. This project is important for development of computational methods and algorithms for working with boson-, anyon- and fermionic systems in computational architectures.

 

Project leader: Manzetti S.

Project participants: Manzetti S., Fino A, Trounev A.

 

Publications:

Manzetti S. (2018). Applied Quantum Physics for Novel Quantum Computation Approaches: an Update. Computational Mathematics and Modeling, 29, 2: 244-252.

Manzetti S. and Trounev A (2019). Supersymmetric Hamiltonian and Vortex Formation Model in a Quantum Nonlinear System in an Inhomogeneous Electromagnetic Field. Adv. Theory and Simulations, https://doi.org/10.1002/adts.201900011

Manzetti Sergio and Trounev Alexander (2019). Analytical solutions for a supersymmetric wave-equation for quasiparticles in a quantum system. Adv. Theory and Simulations, Wiley-CH, In press, under the DOI http://www.doi.org/10.1002/adts.201900173.ac

Manzetti Sergio and Trounev Alexander (2019). Electromagnetic vorticity in a square-well crystal system described by a supersymmetric wave-equation.  Adv. Theory and Simulations, Wiley-CH, In press,manuscript id adts.201900186.

Manzetti S. and Trounev A. (2019). Modelling the formation of atmospheric vortices on planet earth using a supersymmetric operator. In: Modeling of quantum vorticity and turbulence in two- and three-dimensional systems. Technical reports nr. 142021. Fjordforsk AS, Vangsnes, Norway.

Manzetti S. and Trounev A. (2019). Quantum vorticity in a rotating magnetic field. In: Modeling of quantum vorticity and turbulence in two- and three-dimensional systems. Technical reports nr. 152020. Fjordforsk AS, Vangsnes, Norway.

Manzetti S. and Trounev A. (2019). Derivation of a Hamiltonian for formation of particles in a rotating system subjected to a homogeneous magnetic field. In: Modeling of quantum vorticity and turbulence in two- and three-dimensional systems. Technical reports nr. 142020. Fjordforsk AS, Vangsnes, Norway.

Manzetti S. and Trounev A. (2019). Formation of quantum vortices in a rotating sphere in an electromagnetic field. In: Modeling of quantum vorticity and turbulence in two-dimensional systems. In: Modeling of quantum vorticity and turbulence in two- and three-dimensional systems. Technical reports nr. 142019. Fjordforsk AS, Vangsnes, Norway.

 

 

 

 

 

 

 

 

 

Ongoing programs

 

 


Industrial Doctorate program in Environmental Chemistry at Uppsala University.

Dr. Phil. program in Mathematics at University of Oslo.

Home | Collaborations | Publications | Projects | Contact | Services

Content on this page requires a newer version of Adobe Flash Player.

Get Adobe Flash player