A boseeinstein condensate is loaded into a threedimensional optical lattice potential formed by a standing wave laser light. Experiments with ultracold quantum gases provide a platform for creating manybody systems that can be well controlled and whose parameters can be tuned over a wide range. Parallelized run file used to calculate the points in fig. In this respect ultracold rydberg gases exhibit an interesting contrast. Quantum gases in statedependent optical potentials by ren e harald reimann master of arts in physics stony brook university 2009 this thesis describes preliminary results for the rst experimental implementation of a statedependent twocomponent super uidmott insulator transition for two interconvertible atomic species. We made a proposal and provided the necessary theoretical analysis for analog quantum simulation of frustrated quantum magnetism by using ultracold bose gases in triangular optical lattices. Pdf quantum simulations with ultracold quantum gases. Dipolar quantum gases, ferlaino group ultracold quantum matter, grimm group strongly correlated quantum.
To a good approximation, samples are thermally isolated from the environment and thus represent idealized quantum systems. Lecture basic principles of quantum statistical mechanics. Well still restrict attention to gases meaning a bunch of particles moving around and barely interacting but one of the. Measuring work and heat in ultracold quantum gases view the table of contents for this issue, or go to the journal homepage for more home search collections journals about contact us my iopscience. In more recent years, these systems have attracted a great deal of attention in other areas in physics, such as condensed matter physics, nuclear physics, and. These quantum gases can be used to study quantum mechanical behavior at a macroscopic scale and are as such an ideal play. Leblanc in the ultracold quantum gases laboratory at the university of alberta we are particularly interested in studying such fields of modern physics and quantum technology as quantum simulation and. Pdf functional renormalization and ultracold quantum. As discussed earlier, the quantum states of the system representing a bosonic atom confined in an optical trap can be modeled by a simple quantum model of a particle subject to a harmonic or infinite well transverse potential and to a. Due to its large spin multiplicity in the ground state, large e. July 31, 2015 congratulations to daniel and bo for successfully defending their master phd theses.
Enhancement effect of mass imbalance on fuldeferrelllarkinovchinnikov type of pairing in fermifermi mixtures of ultracold quantum gases. The early gas laws were developed at the end of the 18th century, when scientists. A thouless quantum pump with ultracold bosonic atoms in an optical superlattice. The lectures are uploaded as pdf files, so you will need adobe acrobat. Whereas related phenomena are wellstudied in singlespecies quantum gases, the same level of detail has not yet been realized in quantum gas mixtures like. For a detailed description of the ideal gas lawsand their further development, see ideal gas, ideal gas law and gas. Ultracold quantum gases have opened up new vistas in manybody physics, from novel quantum states of matter to quantum computing applications. At the centre for quantum technologies cqt and the national university of singapore we have an opening for a. All books are in clear copy here, and all files are secure so dont worry about it. Quantum gases in this section we will discuss situations where quantum e.
We are seeking for candidates with a good background in quantum mechanics and optics, and a strong interest in learning more about ultracold quantum gases. Dipolar quantum matter and topological quantum matter. Quantum simulations with ultracold quantum gases immanuel bloch 1,2, jean dalibard 3 and sylvain nascimbene 1,3 ultracold quantum gases offer a unique setting for quantum simulation of. Mixed quantum gases offer a wealth of research opportunities, ranging from precision measurements to studies of various quantum manybody regimes.
Often, our work is motivated by unresolved problems from condensed matter physics, which we emulate with trapped atomic gases. As a quantum physics laboratory due to good experimental control quantum information, bells inequalities, quantum computation. Ultracold quantum gases in triangular optical lattices. Spectroscopy of an interacting ultracold rydberg gas. Manybody quantum physics with ultracold gases theory quantum dynamics group prof.
These socalled optical lattices act as versatile potential landscapes to trap ultracold quantum gases of bosons and fermions. There are over 100 experiments on ultracold quantum gases around the world on every continent except antarctica. Ultracold atoms and quantum gases subhadeep gupta uw nsfint phys reu, 26th june 2017 recent control of atomic position and momentum. Imaging systems are an essential component of quantum gas experiments. Read online atomatom interactions in ultracold quantum gases book pdf free download link book now. To reach such low temperatures, a combination of several techniques typically has to be used.
Stamperkurn1,2 1department of physics, university of california, berkeley, california 94720, usa 2materials sciences division, lawrence berkeley national laboratory, berkeley, california 94720, usa. Remove degrees of freedom manipulate controllablyusefully introduce complexity address qs in amo, cm, nuclear, particle today. Ultracold atoms are atoms that are maintained at temperatures close to 0 kelvin, typically below several tens of microkelvin. Publishers pdf, also known as version of record queens university belfast research portal. The center is formed by three groups at the university of innsbruck and the austrian academy of sciences. Manybody quantum physics with ultracold gases theory. In our research we use ultracold nanokelvin atomic gases as model systems to explore fundamental phenomena in quantum manybody physics.
When we talk about the temperatures of a gas of atoms, what we are describing is the average kinetic energy of the system, which can be characterised by the speeds of the atoms in the gas. Many recently published theoretical papers deal with bec for a harmonic trapped gas46. A master thesis is a good opportunity to enter the field and learn more about our interdisciplinary research at the crossing between quantum optics and condensedmatter physics. Vincent liu, for his continued guidance and support during my phd study. We present a unified picture of the interaction effects in dilute atomic quantum gases. Apr 12, 2014 3 we plan to induce longrange interactions using a highfinesse optical cavity leading to a lightinduced pairing mechanism. Our recent work finally demonstrated the production of a quantum degenerate molecular gas. Ultracold quantum gases zixu zhang, phd university of pittsburgh, 2012 in this thesis, we discuss ultracold quantum gases both in continuum and optical lattices. Ultracold atoms and quantum gases added 29 new photos from july 31, 2015 to the album. Ultracold quantum gases laboratory for quantum simulation and hybrid quantum systems andrei tretiakov, taras hrushevskyi, lindsay j. It is also the plan to put this mixture into an optical lattice henrik is currently.
Pritchard and wolfgang ketterle itinerant ferromagnetism in a fermi gas of ultracold atoms. Ultracold gases are a relatively young field in atomic and molecular physics. Welcome to the fascinating world of quantum matter near absolute zero. We employ ultracold atomic fermi gases to study quantum manybody physics. Ferlaino this project investigates highly magnetic quantum gases with erbium er atoms. As a phenomenon of nature how does matter behave at very low temperatures. Rudolf grimm is part of the center for ultracold atoms and quantum gases. First, a feshbach resonance isusedtoconvertpairsoffreeatomstoweaklyboundmolecules43 46. At these temperatures the atoms quantummechanical properties become important. We also create a system of bilayer quantum gases that brings new imaging capabilities and extends the possible range of our quantum simulation. Ultracold quantum matter ultracold atoms and quantum gases.
Thermodynamics of an ideal gas of bosons harmonically trapped. The open access journal for physics new jou rnal of ph ys ics ultracold quantum gases in triangular optical lattices c becker1,3, p soltanpanahi1, j kronjager2, s dorscher1, k bongs2 and k sengstock1 1 institut fur laserphysik, universitat hamburg, hamburg d22761, germany 2 muarc, school of physics and astronomy, university of birmingham, edgbaston, birmingham b15 2tt, uk. Molecules comprised of two fermions or two bosons are bosonic. Ultracold quantum gases are exceptionally powerful systems for creating and studying interesting and novel quantum. Researchers will use nasas cold atom laboratory to study ultracold quantum gases, exploring how atoms interact in microgravity when they have almost no motion due to such cold temperatures. Functional renormalization and ultracold quantum gases. In recent years, technologies have been developed to cool atoms and molecules to the lowest temperatures and to manipulate and control their degrees of freedom at the quantum level. Handing in your solutions will be noticed irrespective of whether you want them to be checked or not. Effects of the dipoledipole interaction on the physics of ultracold quantum gases marta abad garcia advertiment.
We are an experimental research group working with atomic and molecular gases cooled down to temperatures in the nanokelvin range. Quantum gases recurrences in an isolated quantum manybodysystem bernhard rauer, 1sebastian erne,1,2,3 thomas schweigler, federica cataldini, mohammadamin tajik, 1jorg schmiedmayer the complexity of interacting quantum manybody systems leads to exceedingly long recurrence times of the initial quantum state for all but the smallest. Observation of quantum measurement backaction with an ultracold atomic gas kater w. The photodissociation of 88sr2 molecules is examined at ultracold temperatures with a high degree of control, and a wealth of quantum effects such as barrier tunnelling, matterwave interference. The high degree of controllability, the novel detection possibilities and the extreme physical parameter regimes that can be reached in these. Here we demonstrate our abilities to generate optical potential with high precision and high resolution, and engineer coherent dynamics using photon assisted tunneling. The young field of ultracold quantum gases is an exciting, fast. Lecture 19 ideal quantum gases, single particle density of states, the. Degenerate quantum gases quantum simulation 1 introduction since the advent of laser cooling and trapping techniques in the 1980s and 1990s, optical lattices produced by interfering laser beams have become an indispensable tool for trapping periodic arrays of ultracold atoms and degenerate quantum gases see, e. In our experiments, we use ultracold atom clouds to understand how complex quantum systems behave.
Ultracold quantum gases are exceptionally powerful systems for creating and studying interesting and novel quantum manybody systems. Download atomatom interactions in ultracold quantum gases book pdf free download link or read online here in pdf. Effects of the dipoledipole interaction on the physics of. Over the last years the exciting developments in the field of ultracold atoms confined in optical lattices have led to numerous theoretical proposals devoted. In particular, we are interested in questions related to how strong interactions, reduced dimensionality. First, atoms are usually trapped and precooled via laser cooling in a magnetooptical trap. Its often said that laser cooled atoms are the coldest stuff in the universe. In recent years, ultracold atomic gases have become a fertile ground for developing and testing ideas of quantum manybody physics. Ultracold quantum gases in threedimensional optical. Breathing modes in quantum gases december 08, 2014 20 21. Liu has always educated me very patiently with his deep and broad knowledge in physics. Ultracold quantum gases laboratory for quantum simulation and. Experimental and theoretical aspects of quantum gases. This provides access to a new class of combined lightmatter quantum states.
Fewbody collisions in a quantum gas mixture of 40k and 87rb atoms. Ultracold gases department of physics georgetown university. Ultracold quantum gases in threedimensional optical lattice. A tomic, molecular, and optical physics experiments enable the precise control of interactions in a quantum manybody system1,2. Ultracold bosonic and fermionic quantum gases in optical. In this dissertation, we study rotational properties of ultracold bosonic quantum gases in two trapped configurations, a quasitwodimensional gas in a harmonic trap and a quasionedimensional gas. In the context of magnetic interaction in ultracold quantum gases, spin mixtures are currently receiving rapidly growing experimental and theoretical interest. The newfound ability to confine ultracold quantum gases in optical lattices is already having a major impact in fields as diverse as condensedmatter physics and quantum information processing.
Competition between weak quantum measurement and manybody dynamics in ultracold bosonic gases wojciech kozlowski, st. Magnetic lattices for ultracold atoms and degenerate. Moreover, we strive to realize new quantum phases not encountered in the solid state. Our general scientific goal is to create novel states of quantum matter and to investigate their intriguing and sometimes very bizarre properties. Atomatom interactions in ultracold quantum gases pdf.
Ultracold atoms and quantum gases research groups of f. For more information visit the web pages of the individual groups. To a good approximation, samples are thermally isolated from the environment and thus represent idealized quantum. Nanofiber research is also motivated by their potential integration into fundamental cold atom quantum experiments, and the role they can play there. Ultracold quantum gases boseeinstein condensate fermi superfluidity superfluidity superfluidity mott insulator t 100 nk n 106 atoms. For the continuum fermi gases in bcsbec crossover, we present an e. An optical lattice is essentially an artificial crystal of light a. In our research we investigate the properties of atomic gases at extremely low temperatures. Quantum gases recurrences in an isolated quantum manybodysystem. Quantum gases authorstitles recent submissions arxiv. Lecture 8 structure and distribution functions in classical liquids and gases. Frustrated quantum magnetism with bose gases in triangular. Combining nanofibers with existing optical and quantum technologies is a powerful strategy for advancing areas like quantum computation, quantum information processing, and quantum communication. Ultracold quantum gases offer a unique setting for quantum simulation of interacting manybody systems.
Welcome to the ultracold quantum gas research group at aarhus university. Macroscopic states of dipolar quantum gases 5th institute of physics. Dipolar quantum gases, ferlaino group ultracold quantum matter, grimm group strongly correlated quantum matter, nagerl group. Our research group at the physikalisches institut of heidelberg university performs fundamental research in the fields of quantum and atomic physics. Quantum corrections to the classical field approximation for 1d quantum manybody systems in equilibrium. There is an increasing need for high resolution imaging pdf quantum coherence and magnetism in bosonic and fermionic gases of ultracold atoms gyuboong jo, yeryuoung lee, jaehoon choi, caleb a. Candidates with interest or experience in quantum device fabrication are especially encouraged to apply. This perspective explores how such atomic ensembles can help to unravel some of the outstanding open questions in the field. Properties of rotating ultracold bosonic quantum gases. A thouless quantum pump with ultracold bosonic atoms in an. This can come from many different areas of physics, such as quantum physics, quantum information, solid. Quantum simulations with ultracold quantum gases nature physics. The research presently focuses on two main directions that both complement each other.
Competition between weak quantum measurement and many. We consider fermionic as well as bosonic gases and, in particular, discuss. In particular, we are interested in questions related to how. More than 30 years ago, thouless introduced the concept of a topological charge pump that would enable the robust transport of charge through an adiabatic cyclic evolution of. Exploring quantum mechanics in manyparticle systems using ultracold quantum gases at temperatures around one billionth of a degree above absolute zero, ultracold quantum gases offer an unprecedented opportunity for exploring the behaviour of manybody systems using precise control over the atoms temperature, interactions. Typical experiments use magnetic or optical forces to trap a dilute vapor of atoms in high vacuum. Precision bec interferometry bosefermi superfluids 250mm about 105 yb atoms. The large interest in ultracold gases comes from the fact that when a gas is cooled to a temperature close to zero the quantum nature of the atomic motion starts to play a dominant role. They became world wide known after the achievement of boseeinstein condensation in 1995 see nobel prize in physics in 2001. We will search for cooper pairing in spinpolarized fermi gases mediated by the interaction of fermions with a quantized light field. Engineered potentials and dynamics of ultracold quantum gases. They are systems that are translationally cold, but comprise enormous internal energy.
Local probing of interacting fermions in optical lattices. Quantum droplets in a strongly dipolar bose gas, phys. Viewed quantum mechanically, each particle is described by a wavefunction. To illustrate this, well return once again to the ideal gas trapped in a box with sides of length l and volume v l3. Ultracold quantum gases are proving to be a powerful model system for strongly interacting electronic manybody systems. To design and implement a system that incorporates ultracold quantum gases and solid state quantum devices through atom chip technologies. This allows us to understand the fundamental quantum mechanical behaviour of few and manyparticle systems. Lecture notes of the les houches summer school in singapore. Observation of quantummeasurement backaction with an.
The ultracold quantum gases group is an experimental research group at icfo the institute of photonic sciences in barcelona, spain. Phd candidacy on ultracold polar molecules in optical lattices. Exploring quantum mechanics in manyparticle systems. Phd candidacy on ultracold polar molecules in optical lattices centre for quantum technologies, national university of singapore project description are you looking for an experimental phd project in the area of ultracold quantum gases.
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