Your search keyword '"Benhelm, J."' showing total 46 results

1. High fidelity entanglement of 43Ca+ hyperfine clock states

Author

Kirchmair, G., Benhelm, J., Zähringer, F., Gerritsma, R., Roos, C. F., and Blatt, R.

Subjects

Quantum Physics

Abstract

In an experiment using the odd calcium isotope 43Ca+ we combine the merits of a high fidelity entangling operation on an optical transition (optical qubit) with the long coherence times of two 'clock' states in the hyperfine ground state (hyperfine qubit) by mapping between these two qubits. For state initialization, state detection, global qubit rotations and mapping operations, errors smaller than 1% are achieved whereas the entangling gate adds errors of 2.3%. Based on these operations, we create Bell states with a fidelity of 96.9(3)% in the optical qubit and a fidelity of 96.7(3)% when mapped to the hyperfine states. In the latter case, the entanglement is preserved for 96(3) ms, exceeding the duration of a single gate operation by three orders of magnitude., Comment: author name spelling changed

Published

2008

2. Deterministic entanglement of ions in thermal states of motion

Author

Kirchmair, G., Benhelm, J., Zähringer, F., Gerritsma, R., Roos, C. F., and Blatt, R.

Subjects

Quantum Physics

Abstract

We give a detailed description of the implementation of a Molmer-Sorensen gate entangling two Ca+ ions using a bichromatic laser beam near-resonant with a quadrupole transition. By amplitude pulse shaping and compensation of AC-Stark shifts we achieve a fast gate operation without compromising the error rate. Subjecting different input states to concatenations of up to 21 individual gate operations reveals Bell state fidelities above 0.80. In principle, the entangling gate does not require ground state cooling of the ions as long as the Lamb-Dicke criterion is fulfilled. We present the first experimental evidence for this claim and create Bell states with a fidelity of 0.974(1) for ions in a thermal state of motion with a mean phonon number of =20(2) in the mode coupling to the ions' internal states., Comment: 18 pages, 9 figures (author name spelling corrected)

Published

2008

3. Precision measurement of the branching fractions of the 4P3/2 decay of Ca II

Author

Gerritsma, R., Kirchmair, G., Zaehringer, F., Benhelm, J., Blatt, R., and Roos, C. F.

Subjects

Physics - Atomic Physics

Abstract

We perform precision measurements of the branching ratios of the 4P3/2 level decay of a single 40Ca+ ion suspended in a linear Paul trap. High precision is achieved by a novel technique based on monitoring the population transfer when repeatedly pumping the ion between different internal states. The branching fractions into the 4S1/2, 3D5/2 and 3D3/2 levels are found to be 0.9347(3), 0.0587(2) and 0.00661(4), respectively. For the branching ratio A(P3/2-S1/2)/\sum_J A(P3/2-D_J)=14.31(5), we find a forty-fold improvement in accuracy as compared to the best previous measurement.

Published

2008

4. Absolute frequency measurement of the 40Ca+ S1/2 - D5/2 clock transition

Author

Chwalla, M., Benhelm, J., Kim, K., Kirchmair, G., Monz, T., Riebe, M., Schindler, P., Villar, A. S., Haensel, W., Roos, C. F., Blatt, R., Abgrall, M., Santarelli, G., Rovera, G. D., and Laurent, Ph.

Subjects

Physics - Atomic Physics

Abstract

We report on the first absolute transition frequency measurement at the 10^{-15} level with a single, laser-cooled 40Ca+ ion in a linear Paul trap. For this measurement, a frequency comb is referenced to the transportable Cs atomic fountain clock of LNE-SYRTE and is used to measure the S1/2-D5/2 electric-quadrupole transition frequency. After the correction of systematic shifts, the clock transition frequency f_Ca+ = 411 042 129 776 393.2 (1.0) Hz is obtained, which corresponds to a fractional uncertainty within a factor of three of the Cs standard. Future improvements are expected to lead to an uncertainty surpassing the best Cs fountain clocks. In addition, we determine the Lande g-factor of the D5/2 level to be gD5/2=1.2003340(3).

Published

2008

5. Experimental quantum information processing with 43Ca+ ions

Author

Benhelm, J., Kirchmair, G., Roos, C. F., and Blatt, R.

Subjects

Quantum Physics

Abstract

For quantum information processing (QIP) with trapped ions, the isotope 43Ca+ offers the combined advantages of a quantum memory with long coherence time, a high fidelity read out and the possibility of performing two qubit gates on a quadrupole transition with a narrow-band laser. Compared to other ions used for quantum computing, 43Ca+ has a relatively complicated level structure. In this paper we discuss how to meet the basic requirements for QIP and demonstrate ground state cooling, robust state initialization and efficient read out for the hyperfine qubit with a single 43Ca+ ion. A microwave field and a Raman light field are used to drive qubit transitions, and the coherence times for both fields are compared. Phase errors due to interferometric instabilities in the Raman field generation do not limit the experiments on a time scale of 100 ms. We find a quantum information storage time of many seconds for the hyperfine qubit., Comment: 9 pages, 10 figures

Published

2008

6. Towards fault-tolerant quantum computing with trapped ions

Author

Benhelm, J., Kirchmair, G., Roos, C. F., and Blatt, R.

Subjects

Quantum Physics

Abstract

Today ion traps are among the most promising physical systems for constructing a quantum device harnessing the computing power inherent in the laws of quantum physics. The standard circuit model of quantum computing requires a universal set of quantum logic gates for the implementation of arbitrary quantum operations. As in classical models of computation, quantum error correction techniques enable rectification of small imperfections in gate operations, thus allowing for perfect computation in the presence of noise. For fault-tolerant computation, it is commonly believed that error thresholds ranging between 10^-4 and 10^-2 will be required depending on the noise model and the computational overhead for realizing the quantum gates. Up to now, all experimental implementations have fallen short of these requirements. Here, we report on a Molmer-Sorensen type gate operation entangling ions with a fidelity of 99.3(1)% which together with single-qubit operations forms a universal set of quantum gates. The gate operation is performed on a pair of qubits encoded in two trapped calcium ions using a single amplitude-modulated laser beam interacting with both ions at the same time. A robust gate operation, mapping separable states onto maximally entangled states is achieved by adiabatically switching the laser-ion coupling on and off. We analyse the performance of a single gate and concatenations of up to 21 gate operations. The gate mechanism holds great promise not only for two-qubit but also for multi-qubit operations., Comment: submitted to Nature Physics

Published

2008

7. High-fidelity ion-trap quantum computing with hyperfine clock states

Author

Aolita, L., Kim, K., Benhelm, J., Roos, C. F., and Häffner, H.

Subjects

Quantum Physics

Abstract

We propose the implementation of a geometric-phase gate on magnetic-field-insensitive qubits with $\hat{\sigma}^z$-dependent forces for trapped ion quantum computing. The force is exerted by two laser beams in a Raman configuration. Qubit-state dependency is achieved by a small frequency detuning from the virtually-excited state. Ion species with excited states of long radiative lifetimes are used to reduce the chance of a spontaneous photon emission to less than 10$^{-8}$ per gate-run. This eliminates the main source of gate infidelity of previous implementations. With this scheme it seems possible to reach the fault tolerant threshold., Comment: 4 pages, 1 figure

Published

2007

8. Quantum teleportation with atoms: quantum process tomography

Author

Riebe, M., Chwalla, M., Benhelm, J., Haeffner, H., Haensel, W., Roos, C. F., and Blatt, R.

Subjects

Quantum Physics

Abstract

The performance of a quantum teleportation algorithm implemented on an ion trap quantum computer is investigated. First the algorithm is analyzed in terms of the teleportation fidelity of six input states evenly distributed over the Bloch sphere. Furthermore, a quantum process tomography of the teleportation algorithm is carried out which provides almost complete knowledge about the algorithm.

Published

2007

9. Measurement of the hyperfine structure of the S1/2-D5/2 transition in 43Ca+

Author

Benhelm, J., Kirchmair, G., Rapol, U., Koerber, T., Roos, C. F., and Blatt, R.

Subjects

Physics - Atomic Physics

Abstract

The hyperfine structure of the S1/2-D5/2 quadrupole transition at 729 nm in 43Ca+ has been investigated by laser spectroscopy using a single trapped 43Ca+ ion. We determine the hyperfine structure constants of the metastable level as A=-3.8931(2) MHz and B=-4.241(4) MHz. The isotope shift of the transition with respect to 40Ca+ was measured to be 4134.713(5) MHz. We demonstrate the existence of transitions that become independent of the first-order Zeeman shift at non-zero low magnetic fields. These transitions might be better suited for building a frequency standard than the well-known 'clock transitions' between m=0 levels at zero magnetic field., Comment: corrected for sign errors in the hyperfine constants. No corrections to were made to the data analysis

Published

2006

10. Scalable multi-particle entanglement of trapped ions

Author

Haeffner, H., Haensel, W., Roos, C. F., Benhelm, J., Chek-al-kar, D., Chwalla, M., Koerber, T., Rapol, U. D., Riebe, M., Schmidt, P. O., Becher, C., Gühne, O., Dür, W., and Blatt, R.

Subjects

Quantum Physics

Abstract

Among the various kinds of entangled states, the 'W state' plays an important role as its entanglement is maximally persistent and robust even under particle loss. Such states are central as a resource in quantum information processing and multiparty quantum communication. Here we report the scalable and deterministic generation of four-, five-, six-, seven- and eight-particle entangled states of the W type with trapped ions. We obtain the maximum possible information on these states by performing full characterization via state tomography, using individual control and detection of the ions. A detailed analysis proves that the entanglement is genuine. The availability of such multiparticle entangled states, together with full information in the form of their density matrices, creates a test-bed for theoretical studies of multiparticle entanglement. Independently, -Greenberger-Horne-Zeilinger- entangled states with up to six ions have been created and analysed in Boulder.

Published

2006

11. Robust entanglement

Author

Haeffner, H., Schmidt-Kaler, F., Haensel, W., Roos, C. F., Koerber, T., Chwalla, M., Riebe, M., Benhelm, J., Rapol, U. D., Becher, C., and Blatt, R.

Subjects

Quantum Physics

Abstract

It is common belief among physicists that entangled states of quantum systems loose their coherence rather quickly. The reason is that any interaction with the environment which distinguishes between the entangled sub-systems collapses the quantum state. Here we investigate entangled states of two trapped Ca$^+$ ions and observe robust entanglement lasting for more than 20 seconds.

Published

2005

12. Cold atoms in a high-Q ring-cavity

Author

Kruse, D., Ruder, M., Benhelm, J., von Cube, C., Zimmermann, C., Courteille, Ph. W., Elsaesser, Th., Nagorny, B., and Hemmerich, A.

Subjects

Quantum Physics

Abstract

We report the confinement of large clouds of ultra-cold 85-Rb atoms in a standing-wave dipole trap formed by the two counter-propagating modes of a high-Q ring-cavity. Studying the properties of this trap we demonstrate loading of higher-order transverse cavity modes and excite recoil-induced resonances., Comment: 4 pages, 4 figures

Published

2003

13. Scalable multiparticle entanglement of trapped ions

Author

Haffner, H., Hansel, W., Roos, C. F., Benhelm, J., Chek-al-kar, D., Chwalla, M., Korber, T., Rapol, U. D., Riebe, M., Schmidt, P. O., Becher, C., Guhne, O., Dur, W., and Blatt, R.

Subjects

Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Author(s): H. Häffner (corresponding author) [1, 3]; W. Hänsel [1]; C. F. Roos [1, 3]; J. Benhelm [1, 3]; D. Chek-al-kar [1]; M. Chwalla [1]; T. Körber [1, 3]; U. [...]

Published

2005

14. Deterministic quantum teleportation with atoms

Author

Riebe, M., Haffner, H., Roos, C. F., Hansel, W., Benhelm, J., Lancaster, G. P. T., Korber, T. W., Becher, C., Schmidt-Kaler, F., James, D. F. V., and Blatt, R.

Subjects

Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Author(s): M. Riebe [1]; H. Häffner [1]; C. F. Roos [1]; W. Hänsel [1]; J. Benhelm [1]; G. P. T. Lancaster [1]; T. W. Körber [1]; C. Becher [1]; F. [...]

Published

2004

15. Robust entanglement

Author

Häffner, H., Schmidt-Kaler, F., Hänsel, W., Roos, C. F., Körber, T., Chwalla, M., Riebe, M., Benhelm, J., Rapol, U. D., Becher, C., and Blatt, R.

Published

2005

16. Absolute Frequency Measurement of the Ca+40 4sS1/22-3dD5/22 Clock Transition

Author

Chwalla, Michael, Benhelm, J., Kim, K., Kirchmair, G., Monz, T., Riebe, M., Schindler, P., Villar, A. S., Hänsel, Wolfgang, Roos, C. F., Blatt, R., Abgrall, Michel, Santarelli, Giorgio, Rovera, Daniele, Laurent, Philippe, Institut für Experimentalphysik, Universität Innsbruck, Systèmes de Référence Temps Espace (SYRTE), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS), Références micro-ondes et échelles de temps, Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris, and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)

Subjects

[PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph]

Abstract

International audience; We report on the first absolute transition frequency measurement at the 10-15 level with a single, laser-cooled Ca+40 ion in a linear Paul trap. For this measurement, a frequency comb is referenced to the transportable Cs atomic fountain clock of LNE-SYRTE and is used to measure the Ca+40 4sS1/22-3dD5/22 electric-quadrupole transition frequency. After the correction of systematic shifts, the clock transition frequency nuCa+=411042129776393.2(1.0)Hz is obtained, which corresponds to a fractional uncertainty within a factor of 3 of the Cs standard. In addition, we determine the Landé g factor of the 3dD5/22 level to be g5/2=1.2003340(3).

Published

2009

17. Ca+quantum bits for quantum information processing

Author

Benhelm, J, primary, Kirchmair, G, additional, Gerritsma, R, additional, Zähringer, F, additional, Monz, T, additional, Schindler, P, additional, Chwalla, M, additional, Hänsel, W, additional, Hennrich, M, additional, Roos, C F, additional, and Blatt, R, additional

Published

2009

18. Entangling two and more ions with collective laser-ion interactions

Author

Roos, C. F., primary, Kirchmair, G., additional, Zahringer, F., additional, Benhelm, J., additional, Gerritsma, R., additional, and Blatt, R., additional

Published

2009

19. ABSOLUTE FREQUENCY MEASUREMENT OF THE 40Ca+ 4s 2S1/2 - 3d 2D5/2 CLOCK TRANSITION

Author

Chwalla, M., primary, Benhelm, J., additional, Kim, K., additional, Kirchmair, G., additional, Monz, T., additional, Riebe, M., additional, Schindler, P., additional, Villar, A. S., additional, Hänsel, W., additional, Roos, C. F., additional, Blatt, R., additional, Abgrall, M., additional, Santarelli, G., additional, Rovera, G. D., additional, and Laurent, Ph., additional

Published

2009

20. High-fidelity entanglement ofCa+43hyperfine clock states

Author

Kirchmair, G., primary, Benhelm, J., additional, Zähringer, F., additional, Gerritsma, R., additional, Roos, C. F., additional, and Blatt, R., additional

Published

2009

21. Deterministic entanglement of ions in thermal states of motion

Author

Kirchmair, G, primary, Benhelm, J, additional, Zähringer, F, additional, Gerritsma, R, additional, Roos, C F, additional, and Blatt, R, additional

Published

2009

22. Absolute Frequency Measurement of theCa+404s S1/22−3d D5/22Clock Transition

Author

Chwalla, M., primary, Benhelm, J., additional, Kim, K., additional, Kirchmair, G., additional, Monz, T., additional, Riebe, M., additional, Schindler, P., additional, Villar, A. S., additional, Hänsel, W., additional, Roos, C. F., additional, Blatt, R., additional, Abgrall, M., additional, Santarelli, G., additional, Rovera, G. D., additional, and Laurent, Ph., additional

Published

2009

23. Precision measurement of the branching fractions of the 4p 2P3/2 decay of Ca II

Author

Gerritsma, R., primary, Kirchmair, G., additional, Zähringer, F., additional, Benhelm, J., additional, Blatt, R., additional, and Roos, C. F., additional

Published

2008

24. QUANTUM COMPUTATION WITH TRAPPED IONS

Author

HÄFFNER, H., primary, HÄNSEL, W., additional, ROOS, C. F., additional, SCHMIDT, P. O., additional, RIEBE, M., additional, CHWALLA, M., additional, CHEK–AL–KAR, D., additional, BENHELM, J., additional, RAPOL, U. D., additional, KÖRBER, T., additional, BECHER, C., additional, GÜHNE, O., additional, DÜR, W., additional, and BLATT, R., additional

Published

2008

25. Experimental quantum-information processing withC43a+ions

Author

Benhelm, J., primary, Kirchmair, G., additional, Roos, C. F., additional, and Blatt, R., additional

Published

2008

26. Absolute frequency measurement of 40Ca+ in a Paul trap

Author

Chwalla, M., primary, Benhelm, J., additional, Kim, K., additional, Kirchmair, G., additional, Monz, T., additional, Riebe, M., additional, Schindler, P., additional, Villar, A., additional, Roos, C. F., additional, Haensel, W., additional, Blatt, R., additional, Abgrall, M., additional, Santarelli, G., additional, Rovera, G. D., additional, and Laurent, Ph., additional

Published

2008

27. High-fidelity ion-trap quantum computing with hyperfine clock states

Author

Aolita, L., primary, Kim, K., additional, Benhelm, J., additional, Roos, C. F., additional, and Häffner, H., additional

Published

2007

28. Quantum teleportation with atoms: quantum process tomography

Author

Riebe, M, primary, Chwalla, M, additional, Benhelm, J, additional, Häffner, H, additional, Hänsel, W, additional, Roos, C F, additional, and Blatt, R, additional

Published

2007

29. Erratum: Measurement of the hyperfine structure of theS1∕2-D5∕2transition inCa+43[Phys. Rev. A75, 032506 (2007)]

Author

Benhelm, J., primary, Kirchmair, G., additional, Rapol, U., additional, Körber, T., additional, Roos, C. F., additional, and Blatt, R., additional

Published

2007

30. Measurement of the hyperfine structure of theS1∕2−D5∕2transition inCa+43

Author

Benhelm, J., primary, Kirchmair, G., additional, Rapol, U., additional, Körber, T., additional, Roos, C. F., additional, and Blatt, R., additional

Published

2007

31. LONG LIVED ENTANGLED STATES

Author

HÄFFNER, H., primary, SCHMIDT-KALER, F., additional, HÄNSEL, W., additional, ROOS, C., additional, SCHMIDT, P. O., additional, RIEBE, M., additional, CHWALLA, M., additional, CHEK–AL–KAR, D., additional, BENHELM, J., additional, RAPOL, U. D., additional, KÖRBER, T., additional, BECHER, C., additional, and BLATT, R., additional

Published

2006

32. Controlling Three Atomic Qubits

Author

Häffner, H., primary, Riebe, M., additional, Schmidt–Kaler, F., additional, Hänsel, W., additional, Roos, C., additional, Chwalla, M., additional, Benhelm, J., additional, Körber, T., additional, Lancaster, G., additional, Becher, C., additional, James, D. F. V., additional, and Blatt, R., additional

Published

2006

33. Entanglement of trapped ions

Author

Becher, C., primary, Barros, H., additional, Benhelm, J., additional, Chek-al-Kar, D., additional, Chwalla, M., additional, Haffner, H., additional, Hansel, W., additional, Korber, T., additional, Monz, T., additional, Phillips, E.S., additional, Rapol, U.D., additional, Riebe, M., additional, Roos, C., additional, Russo, C., additional, Schmidt, P.O., additional, Guhne, O., additional, Dur, W., additional, and Blatt, R., additional

Published

2006

34. ENTANGLEMENT OF TRAPPED IONS

Author

BECHER, C., primary, BENHELM, J., additional, CHEK-AL-KAR, D., additional, CHWALLA, M., additional, DÜR, W., additional, GÜHNE, O., additional, HÄFFNER, H., additional, HÄNSEL, W., additional, KÖRBER, T., additional, KREUTER, A., additional, LANCASTER, G. P. T., additional, MONZ, T., additional, PHILLIPS, E. S., additional, RAPOL, U. D., additional, RIEBE, M., additional, ROOS, C. F., additional, RUSSO, C., additional, SCHMIDT-KALER, F., additional, and BLATT, R., additional

Published

2005

35. Cold atoms in a high-Qring cavity

Author

Kruse, D., primary, Ruder, M., additional, Benhelm, J., additional, von Cube, C., additional, Zimmermann, C., additional, Courteille, Ph. W., additional, Elsässer, Th., additional, Nagorny, B., additional, and Hemmerich, A., additional

Published

2003

36. ABSOLUTE FREQUENCY MEASUREMENT OF THE 40Ca+ 4s ²S1/2- 3d ²D5/2 CLOCK TRANSITION.

Author

Chwalla, M., Benhelm, J., Kim, K., Kirchmair, G., Monz, T., Riebe, M., Schindler, P., Villar, A. S., Hänsel, W., Roos, C. F., Blatt, R., Abgrall, M., Santarelli, G., Rovera, G. D., and Laurent, Ph.

Subjects

FREQUENCY standards, CALCIUM ions, ION traps, ATOMIC clocks, PHYSICAL constants

Published

2009

37. Teleportation with atoms.

Author

Häffner, H., Riebe, M., Schmidt-Kaler, F., Hänsel, W., Roos, C., Chwalla, M., Benhelm, J., Körber, T., Lancaster, G., Becher, C., James, D. F. V., and Blatt, R.

Subjects

QUANTUM teleportation, ATOMS, CONSTITUTION of matter, PHYSICAL & theoretical chemistry, QUANTUM theory, THERMODYNAMICS, IONS

Abstract

The teleportation of an atomic state accomplishes the complete transfer of information from one particle to another, employing the non-local properties of quantum mechanics. Recently, two groups have achieved the deterministic teleportation of a quantum state between a pair of trapped ions. Following closely the original proposal of Bennett et al., a highly entangled pair of ions is created, a complete Bell-state projective measurement involving the source ion and one of the entangled pair is carried out, and state reconstruction conditioned on this measurement is performed on the other half of the entangled pair. © 2005 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2005

38. Precision measurement of the branching fractions of the 4p 2P3/2 decay of Ca II.

Author

Gerritsma, R., Kirchmair, G., Zähringer, F., Benhelm, J., Blatt, R., and Roos, C. F.

Subjects

ION traps, NUCLEAR reactions, RADIOACTIVITY, ATOMIC theory, PHYSICAL & theoretical chemistry

Abstract

We perform precision measurements of the branching ratios of the 4p 2P3/2 level decay of a single 40Ca+ ion suspended in a linear Paul trap. High precision is achieved by a novel technique based on monitoring the population transfer when repeatedly pumping the ion between different internal states. The branching fractions into the 4s 2S1/2, 3d 2D5/2 and 3d 2D3/2 levels are found to be 0.9347(3), 0.0587(2) and 0.00661(4), respectively. For the branching ratio A(P3/2-S $_{1/2})/\sum_J A($ P3/2-DJ)=14.31(5), we find a forty-fold improvement in accuracy as compared to the best previous measurement. [ABSTRACT FROM AUTHOR]

Published

2009

39. Deterministic quantum teleportation with atoms.

Author

Reibe, M., Häffner, H., Roos, C.F., Hänsel, W., Benhelm, J., Lancaster, G.P.T., Körber, T.W., Becher, C., Schmidt-Kaler, F., James, D.F.V., and Blatt, R.

Subjects

QUANTUM teleportation, PSYCHOKINESIS, QUANTUM theory, IONS, MECHANICS (Physics), PHYSICS

Abstract

Teleportation of a quantum state encompasses the complete transfer of information from one particle to another. The complete specification of the quantum state of a system generally requires an infinite amount of information, even for simple two-level systems (qubits). Moreover, the principles of quantum mechanics dictate that any measurement on a system immediately alters its state, while yielding at most one bit of information. The transfer of a state from one system to another (by performing measurements on the first and operations on the second) might therefore appear impossible. However, it has been shown that the entangling properties of quantum mechanics, in combination with classical communication, allow quantum-state teleportation to be performed. Teleportation using pairs of entangled photons has been demonstrated, but such techniques are probabilistic, requiring post-selection of measured photons. Here, we report deterministic quantum-state teleportation between a pair of trapped calcium ions. Following closely the original proposal, we create a highly entangled pair of ions and perform a complete Bell-state measurement involving one ion from this pair and a third source ion. State reconstruction conditioned on this measurement is then performed on the other half of the entangled pair. The measured fidelity is 75%, demonstrating unequivocally the quantum nature of the process. [ABSTRACT FROM AUTHOR]

Published

2004

40. Quantum computing with trapped ions

Author

Haffner, H., primary, Roos, C., additional, Becher, C., additional, Hansel, W., additional, Korber, T., additional, Schmidt-Kaler, F., additional, Riebe, M., additional, Benhelm, J., additional, Lancaster, G., additional, Chek-al-Kar, D., additional, and Blatt, R., additional

41. Quantum gates and entanglement.

Author

Schmidt-Kaler, F., Haffner, H., Riebe, M., Deuschle, T., Benhelm, J., Lancester, G., Becher, C., Hansel, W., Roos, C., and Blatt, R.

Published

2004

42. Observation of very long-lived entanglement.

Author

Korber, T.W., Roos, C., Hansel, W., Rapol, U., Chwalla, M., Benhelm, J., Chek-al-kar, D., Riebe, M., Haffner, H., Schmidt-Kaler, F., and Blatt, R.

Published

2005

43. Application of process tomography to quantum teleportation.

Author

Rapol, U.D., Haffner, H., Riebe, M., Roos, C., Hansel, W., Chwalla, M., Benhelm, J., Korber, T., Lancaster, G., James, D.F.V., Schmidt-Kaler, F., and Blatt, R.

Published

2005

44. Quantum computing with trapped ions.

Author

Haffner, H., Roos, C., Becher, C., Hansel, W., Korber, T., Schmidt-Kaler, F., Riebe, M., Benhelm, J., Lancaster, G., Chek-al-Kar, D., and Blatt, R.

Published

2005

45. Absolute frequency measurement of the 40Ca+ 4s(2)S_(1/2)-3d(2)D_(5/2) clock transition.

Author

Chwalla M, Benhelm J, Kim K, Kirchmair G, Monz T, Riebe M, Schindler P, Villar AS, Hänsel W, Roos CF, Blatt R, Abgrall M, Santarelli G, Rovera GD, and Laurent P

Abstract

We report on the first absolute transition frequency measurement at the 10;{-15} level with a single, laser-cooled 40Ca+ ion in a linear Paul trap. For this measurement, a frequency comb is referenced to the transportable Cs atomic fountain clock of LNE-SYRTE and is used to measure the 40Ca+ 4s ;{2}S_{1/2}-3d ;{2}D_{5/2} electric-quadrupole transition frequency. After the correction of systematic shifts, the clock transition frequency nu_{Ca;{+}}=411 042 129 776 393.2(1.0) Hz is obtained, which corresponds to a fractional uncertainty within a factor of 3 of the Cs standard. In addition, we determine the Landé g factor of the 3d;{2}D_{5/2} level to be g_{5/2}=1.200 334 0(3).

Published

2009

46. Control and measurement of three-qubit entangled states.

Author

Roos CF, Riebe M, Häffner H, Hänsel W, Benhelm J, Lancaster GP, Becher C, Schmidt-Kaler F, and Blatt R

Abstract

We report the deterministic creation of maximally entangled three-qubit states-specifically the Greenberger-Horne-Zeilinger (GHZ) state and the W state-with a trapped-ion quantum computer. We read out one of the qubits selectively and show how GHZ and W states are affected by this local measurement. Additionally, we demonstrate conditional operations controlled by the results from reading out one qubit. Tripartite entanglement is deterministically transformed into bipartite entanglement by local operations only. These operations are the measurement of one qubit of a GHZ state in a rotated basis and, conditioned on this measurement result, the application of single-qubit rotations.

Published

2004