Your search keyword '"Eklund, Gunnar"' showing total 28 results

1. Polymer-encapsulated molecular doped epigraphene for quantum resistance metrology

Author

He, Hans, Lara-Avila, Samuel, Kim, Kyung Ho, Fletcher, Nick, Rozhko, Sergiy, Bergsten, Tobias, Eklund, Gunnar, Cedergren, Karin, Yakimova, Rositsa, Park, Yung Woo, Tzalenchuk, Alexander, Kubatkin, Sergey, He, Hans, Lara-Avila, Samuel, Kim, Kyung Ho, Fletcher, Nick, Rozhko, Sergiy, Bergsten, Tobias, Eklund, Gunnar, Cedergren, Karin, Yakimova, Rositsa, Park, Yung Woo, Tzalenchuk, Alexander, and Kubatkin, Sergey

Abstract

One of the aspirations of quantum metrology is to deliver primary standards directly to end-users thereby significantly shortening the traceability chains and enabling more accurate products. Epitaxial graphene grown on silicon carbide (epigraphene) is known to be a viable candidate for a primary realisation of a quantum Hall resistance standard, surpassing conventional semiconductor two-dimensional electron gases, such as those based on GaAs, in terms of performance at higher temperatures and lower magnetic fields. The bottleneck in the realisation of a turn-key quantum resistance standard requiring minimum user intervention has so far been the need to fine-tune the carrier density in this material to fit the constraints imposed by a simple cryo-magnetic system. Previously demonstrated methods, such as via photo-chemistry or corona discharge, require application prior to every cool-down as well as specialist knowledge and equipment. To this end we perform metrological evaluation of epigraphene with carrier density tuned by a recently reported permanent molecular doping technique. Measurements at two National Metrology Institutes confirm accurate resistance quantisation below 5 n Omega Omega(-1). Furthermore, samples show no significant drift in carrier concentration and performance on multiple thermal cycles over three years. This development paves the way for dissemination of primary resistance standards based on epigraphene., Funding Agencies|Swedish-Korean Basic Research Cooperative Program of the NRF [NRF-2017R1A2A1A18070721]; Swedish Foundation for Strategic Research (SSF) [IS14-0053, GMT14-0077, RMA15-0024]; Swedish Research Council (VR); VINNOVA; Knut and Alice Wallenberg Foundation; Chalmers Area of Advance NANO; UK Department of Business, Energy and Industrial Strategy (BEIS); European Unions Horizon 2020 research and innovation programme [785219]

Published

2019

2. Polymer-encapsulated molecular doped epigraphene for quantum resistance metrology

Author

He, Hans, Lara-Avila, Samuel, Kim, Kyung Ho, Fletcher, Nick, Rozhko, Sergiy, Bergsten, Tobias, Eklund, Gunnar, Cedergren, Karin, Yakimova, Rositsa, Park, Yung Woo, Tzalenchuk, Alexander, Kubatkin, Sergey, He, Hans, Lara-Avila, Samuel, Kim, Kyung Ho, Fletcher, Nick, Rozhko, Sergiy, Bergsten, Tobias, Eklund, Gunnar, Cedergren, Karin, Yakimova, Rositsa, Park, Yung Woo, Tzalenchuk, Alexander, and Kubatkin, Sergey

Abstract

One of the aspirations of quantum metrology is to deliver primary standards directly to end-users thereby significantly shortening the traceability chains and enabling more accurate products. Epitaxial graphene grown on silicon carbide (epigraphene) is known to be a viable candidate for a primary realisation of a quantum Hall resistance standard, surpassing conventional semiconductor two-dimensional electron gases, such as those based on GaAs, in terms of performance at higher temperatures and lower magnetic fields. The bottleneck in the realisation of a turn-key quantum resistance standard requiring minimum user intervention has so far been the need to fine-tune the carrier density in this material to fit the constraints imposed by a simple cryo-magnetic system. Previously demonstrated methods, such as via photo-chemistry or corona discharge, require application prior to every cool-down as well as specialist knowledge and equipment. To this end we perform metrological evaluation of epigraphene with carrier density tuned by a recently reported permanent molecular doping technique. Measurements at two National Metrology Institutes confirm accurate resistance quantisation below 5 n Omega Omega(-1). Furthermore, samples show no significant drift in carrier concentration and performance on multiple thermal cycles over three years. This development paves the way for dissemination of primary resistance standards based on epigraphene., Funding Agencies|Swedish-Korean Basic Research Cooperative Program of the NRF [NRF-2017R1A2A1A18070721]; Swedish Foundation for Strategic Research (SSF) [IS14-0053, GMT14-0077, RMA15-0024]; Swedish Research Council (VR); VINNOVA; Knut and Alice Wallenberg Foundation; Chalmers Area of Advance NANO; UK Department of Business, Energy and Industrial Strategy (BEIS); European Unions Horizon 2020 research and innovation programme [785219]

Published

2019

3. Polymer-encapsulated molecular doped epigraphene for quantum resistance metrology

Author

He, Hans, Lara-Avila, Samuel, Kim, Kyung Ho, Fletcher, Nick, Rozhko, Sergiy, Bergsten, Tobias, Eklund, Gunnar, Cedergren, Karin, Yakimova, Rositsa, Park, Yung Woo, Tzalenchuk, Alexander, Kubatkin, Sergey, He, Hans, Lara-Avila, Samuel, Kim, Kyung Ho, Fletcher, Nick, Rozhko, Sergiy, Bergsten, Tobias, Eklund, Gunnar, Cedergren, Karin, Yakimova, Rositsa, Park, Yung Woo, Tzalenchuk, Alexander, and Kubatkin, Sergey

Abstract

One of the aspirations of quantum metrology is to deliver primary standards directly to end-users thereby significantly shortening the traceability chains and enabling more accurate products. Epitaxial graphene grown on silicon carbide (epigraphene) is known to be a viable candidate for a primary realisation of a quantum Hall resistance standard, surpassing conventional semiconductor two-dimensional electron gases, such as those based on GaAs, in terms of performance at higher temperatures and lower magnetic fields. The bottleneck in the realisation of a turn-key quantum resistance standard requiring minimum user intervention has so far been the need to fine-tune the carrier density in this material to fit the constraints imposed by a simple cryo-magnetic system. Previously demonstrated methods, such as via photo-chemistry or corona discharge, require application prior to every cool-down as well as specialist knowledge and equipment. To this end we perform metrological evaluation of epigraphene with carrier density tuned by a recently reported permanent molecular doping technique. Measurements at two National Metrology Institutes confirm accurate resistance quantisation below 5 n Omega Omega(-1). Furthermore, samples show no significant drift in carrier concentration and performance on multiple thermal cycles over three years. This development paves the way for dissemination of primary resistance standards based on epigraphene., Funding Agencies|Swedish-Korean Basic Research Cooperative Program of the NRF [NRF-2017R1A2A1A18070721]; Swedish Foundation for Strategic Research (SSF) [IS14-0053, GMT14-0077, RMA15-0024]; Swedish Research Council (VR); VINNOVA; Knut and Alice Wallenberg Foundation; Chalmers Area of Advance NANO; UK Department of Business, Energy and Industrial Strategy (BEIS); European Unions Horizon 2020 research and innovation programme [785219]

Published

2019

4. Polymer-encapsulated molecular doped epigraphene for quantum resistance metrology

Author

He, Hans, Lara-Avila, Samuel, Kim, Kyung Ho, Fletcher, Nick, Rozhko, Sergiy, Bergsten, Tobias, Eklund, Gunnar, Cedergren, Karin, Yakimova, Rositsa, Park, Yung Woo, Tzalenchuk, Alexander, Kubatkin, Sergey, He, Hans, Lara-Avila, Samuel, Kim, Kyung Ho, Fletcher, Nick, Rozhko, Sergiy, Bergsten, Tobias, Eklund, Gunnar, Cedergren, Karin, Yakimova, Rositsa, Park, Yung Woo, Tzalenchuk, Alexander, and Kubatkin, Sergey

Abstract

One of the aspirations of quantum metrology is to deliver primary standards directly to end-users thereby significantly shortening the traceability chains and enabling more accurate products. Epitaxial graphene grown on silicon carbide (epigraphene) is known to be a viable candidate for a primary realisation of a quantum Hall resistance standard, surpassing conventional semiconductor two-dimensional electron gases, such as those based on GaAs, in terms of performance at higher temperatures and lower magnetic fields. The bottleneck in the realisation of a turn-key quantum resistance standard requiring minimum user intervention has so far been the need to fine-tune the carrier density in this material to fit the constraints imposed by a simple cryo-magnetic system. Previously demonstrated methods, such as via photo-chemistry or corona discharge, require application prior to every cool-down as well as specialist knowledge and equipment. To this end we perform metrological evaluation of epigraphene with carrier density tuned by a recently reported permanent molecular doping technique. Measurements at two National Metrology Institutes confirm accurate resistance quantisation below 5 n Omega Omega(-1). Furthermore, samples show no significant drift in carrier concentration and performance on multiple thermal cycles over three years. This development paves the way for dissemination of primary resistance standards based on epigraphene., Funding Agencies|Swedish-Korean Basic Research Cooperative Program of the NRF [NRF-2017R1A2A1A18070721]; Swedish Foundation for Strategic Research (SSF) [IS14-0053, GMT14-0077, RMA15-0024]; Swedish Research Council (VR); VINNOVA; Knut and Alice Wallenberg Foundation; Chalmers Area of Advance NANO; UK Department of Business, Energy and Industrial Strategy (BEIS); European Unions Horizon 2020 research and innovation programme [785219]

Published

2019

5. Polymer-encapsulated molecular doped epigraphene for quantum resistance metrology

Author

He, Hans, Lara-Avila, Samuel, Kim, Kyung Ho, Fletcher, Nick, Rozhko, Sergiy, Bergsten, Tobias, Eklund, Gunnar, Cedergren, Karin, Yakimova, Rositsa, Park, Yung Woo, Tzalenchuk, Alexander, Kubatkin, Sergey, He, Hans, Lara-Avila, Samuel, Kim, Kyung Ho, Fletcher, Nick, Rozhko, Sergiy, Bergsten, Tobias, Eklund, Gunnar, Cedergren, Karin, Yakimova, Rositsa, Park, Yung Woo, Tzalenchuk, Alexander, and Kubatkin, Sergey

Abstract

One of the aspirations of quantum metrology is to deliver primary standards directly to end-users thereby significantly shortening the traceability chains and enabling more accurate products. Epitaxial graphene grown on silicon carbide (epigraphene) is known to be a viable candidate for a primary realisation of a quantum Hall resistance standard, surpassing conventional semiconductor two-dimensional electron gases, such as those based on GaAs, in terms of performance at higher temperatures and lower magnetic fields. The bottleneck in the realisation of a turn-key quantum resistance standard requiring minimum user intervention has so far been the need to fine-tune the carrier density in this material to fit the constraints imposed by a simple cryo-magnetic system. Previously demonstrated methods, such as via photo-chemistry or corona discharge, require application prior to every cool-down as well as specialist knowledge and equipment. To this end we perform metrological evaluation of epigraphene with carrier density tuned by a recently reported permanent molecular doping technique. Measurements at two National Metrology Institutes confirm accurate resistance quantisation below 5 n Omega Omega(-1). Furthermore, samples show no significant drift in carrier concentration and performance on multiple thermal cycles over three years. This development paves the way for dissemination of primary resistance standards based on epigraphene., Funding Agencies|Swedish-Korean Basic Research Cooperative Program of the NRF [NRF-2017R1A2A1A18070721]; Swedish Foundation for Strategic Research (SSF) [IS14-0053, GMT14-0077, RMA15-0024]; Swedish Research Council (VR); VINNOVA; Knut and Alice Wallenberg Foundation; Chalmers Area of Advance NANO; UK Department of Business, Energy and Industrial Strategy (BEIS); European Unions Horizon 2020 research and innovation programme [785219]

Published

2019

6. Polymer-encapsulated molecular doped epigraphene for quantum resistance metrology

Author

He, Hans, Lara-Avila, Samuel, Kim, Kyung Ho, Fletcher, Nick, Rozhko, Sergiy, Bergsten, Tobias, Eklund, Gunnar, Cedergren, Karin, Yakimova, Rositsa, Park, Yung Woo, Tzalenchuk, Alexander, Kubatkin, Sergey, He, Hans, Lara-Avila, Samuel, Kim, Kyung Ho, Fletcher, Nick, Rozhko, Sergiy, Bergsten, Tobias, Eklund, Gunnar, Cedergren, Karin, Yakimova, Rositsa, Park, Yung Woo, Tzalenchuk, Alexander, and Kubatkin, Sergey

Abstract

One of the aspirations of quantum metrology is to deliver primary standards directly to end-users thereby significantly shortening the traceability chains and enabling more accurate products. Epitaxial graphene grown on silicon carbide (epigraphene) is known to be a viable candidate for a primary realisation of a quantum Hall resistance standard, surpassing conventional semiconductor two-dimensional electron gases, such as those based on GaAs, in terms of performance at higher temperatures and lower magnetic fields. The bottleneck in the realisation of a turn-key quantum resistance standard requiring minimum user intervention has so far been the need to fine-tune the carrier density in this material to fit the constraints imposed by a simple cryo-magnetic system. Previously demonstrated methods, such as via photo-chemistry or corona discharge, require application prior to every cool-down as well as specialist knowledge and equipment. To this end we perform metrological evaluation of epigraphene with carrier density tuned by a recently reported permanent molecular doping technique. Measurements at two National Metrology Institutes confirm accurate resistance quantisation below 5 n Omega Omega(-1). Furthermore, samples show no significant drift in carrier concentration and performance on multiple thermal cycles over three years. This development paves the way for dissemination of primary resistance standards based on epigraphene., Funding Agencies|Swedish-Korean Basic Research Cooperative Program of the NRF [NRF-2017R1A2A1A18070721]; Swedish Foundation for Strategic Research (SSF) [IS14-0053, GMT14-0077, RMA15-0024]; Swedish Research Council (VR); VINNOVA; Knut and Alice Wallenberg Foundation; Chalmers Area of Advance NANO; UK Department of Business, Energy and Industrial Strategy (BEIS); European Unions Horizon 2020 research and innovation programme [785219]

Published

2019

7. Polymer-encapsulated molecular doped epigraphene for quantum resistance metrology

Author

He, Hans, Lara-Avila, Samuel, Kim, Kyung Ho, Fletcher, Nick, Rozhko, Sergiy, Bergsten, Tobias, Eklund, Gunnar, Cedergren, Karin, Yakimova, Rositsa, Park, Yung Woo, Tzalenchuk, Alexander, Kubatkin, Sergey, He, Hans, Lara-Avila, Samuel, Kim, Kyung Ho, Fletcher, Nick, Rozhko, Sergiy, Bergsten, Tobias, Eklund, Gunnar, Cedergren, Karin, Yakimova, Rositsa, Park, Yung Woo, Tzalenchuk, Alexander, and Kubatkin, Sergey

Abstract

One of the aspirations of quantum metrology is to deliver primary standards directly to end-users thereby significantly shortening the traceability chains and enabling more accurate products. Epitaxial graphene grown on silicon carbide (epigraphene) is known to be a viable candidate for a primary realisation of a quantum Hall resistance standard, surpassing conventional semiconductor two-dimensional electron gases, such as those based on GaAs, in terms of performance at higher temperatures and lower magnetic fields. The bottleneck in the realisation of a turn-key quantum resistance standard requiring minimum user intervention has so far been the need to fine-tune the carrier density in this material to fit the constraints imposed by a simple cryo-magnetic system. Previously demonstrated methods, such as via photo-chemistry or corona discharge, require application prior to every cool-down as well as specialist knowledge and equipment. To this end we perform metrological evaluation of epigraphene with carrier density tuned by a recently reported permanent molecular doping technique. Measurements at two National Metrology Institutes confirm accurate resistance quantisation below 5 n Omega Omega(-1). Furthermore, samples show no significant drift in carrier concentration and performance on multiple thermal cycles over three years. This development paves the way for dissemination of primary resistance standards based on epigraphene., Funding Agencies|Swedish-Korean Basic Research Cooperative Program of the NRF [NRF-2017R1A2A1A18070721]; Swedish Foundation for Strategic Research (SSF) [IS14-0053, GMT14-0077, RMA15-0024]; Swedish Research Council (VR); VINNOVA; Knut and Alice Wallenberg Foundation; Chalmers Area of Advance NANO; UK Department of Business, Energy and Industrial Strategy (BEIS); European Unions Horizon 2020 research and innovation programme [785219]

Published

2019

8. Stable and tunable charge carrier control of graphene for quantum resistance metrology

Author

He, Hans, Lara-Avila, Samuel, Bergsten, Tobias, Eklund, Gunnar, Kim, Kyung Ho, Yakimova, Rositsa, Park, Yung Woo, Kubatkin, Sergey, He, Hans, Lara-Avila, Samuel, Bergsten, Tobias, Eklund, Gunnar, Kim, Kyung Ho, Yakimova, Rositsa, Park, Yung Woo, and Kubatkin, Sergey

Abstract

Here we demonstrate a stable and tunable method to alter the carrier concentration of epitaxial graphene grown on silicon carbide. This technique relies on chemical doping by an acceptor molecule. Through careful tuning one can produce chemically doped graphene quantum resistance devices which show long-term stability in ambient conditions and have performance comparable to that of GaAs quantum resistance standards. This development paves the way for controlled device fabrication of graphene quantum hall resistance standards, which can be reliably tailored to operate below 5 T and above 4 K out-of-the-box, without further adjustments from the end-user., Funding Agencies|Swedish-Korean Basic Research Cooperative Program of the NRF [2014R1A2A1A12067266]; Swedish Foundation for Strategic Research (SSF) [IS14-0053]; Swedish Research Council (VR); VINNOVA; Knut and Alice Wallenberg Foundation; Chalmers Area of Advance NANO

Published

2018

9. Comparing GaAs and graphene QHR standards for resistance realisation at SP

Author

Bergsten, Tobias, Eklund, Gunnar, He, Hans, Bergsten, Tobias, Eklund, Gunnar, and He, Hans

Abstract

EMRP GraphOhm

Published

2016

10. Comparison between GaAs and graphene QHR standards for resistance realisation at SP

Author

Bergsten, Tobias, Eklund, Gunnar, Bergsten, Tobias, and Eklund, Gunnar

Abstract

We report the first precision QHR measurements at SP using a graphene chip. We compare the results of a resistance calibration using GaAs based chips with the results using a graphene chip. The results agree within a few parts in 109 for calibrations of 100 Ω and 10 kΩ resistors. Consistency checks indicate that the uncertainty is lower with the graphene chip, and the noise level is slightly lower. The measurements with the graphene chip were performed exclusively at 4.2 K, which simplifies the calibration procedure considerably compared with GaAs chips., EMRP GraphOhm

Published

2016

11. Comparison between GaAs and graphene QHR standards for resistance realisation at SP

Author

Bergsten, Tobias, Eklund, Gunnar, Bergsten, Tobias, and Eklund, Gunnar

Abstract

We report the first precision QHR measurements at SP using a graphene chip. We compare the results of a resistance calibration using GaAs based chips with the results using a graphene chip. The results agree within a few parts in 109 for calibrations of 100 Ω and 10 kΩ resistors. Consistency checks indicate that the uncertainty is lower with the graphene chip, and the noise level is slightly lower. The measurements with the graphene chip were performed exclusively at 4.2 K, which simplifies the calibration procedure considerably compared with GaAs chips., EMRP GraphOhm

Published

2016

12. Comparing GaAs and graphene QHR standards for resistance realisation at SP

Author

Bergsten, Tobias, Eklund, Gunnar, He, Hans, Bergsten, Tobias, Eklund, Gunnar, and He, Hans

Abstract

EMRP GraphOhm

Published

2016

13. Pulmonary gas conducting interstitial pathway.

Author

Bense, László, Eklund, Gunnar, Jorulf, Håkan, Farkas, Árpád, Eden-Strindberg, Jerker, Gennser, Mikael, Jókay, Ágnes, Krebsz, Ádám, Bense, László, Eklund, Gunnar, Jorulf, Håkan, Farkas, Árpád, Eden-Strindberg, Jerker, Gennser, Mikael, Jókay, Ágnes, and Krebsz, Ádám

Abstract

In spite of the growing efforts oriented towards revealing different aspects of emphysema, the persistence of the emphysematous or emphysema-like changes (ELCs) is not explored yet in the open literature. In this study we demonstrate the persistence of an ELC for 22 years in a spontaneous pneumothorax (SP) patient which indicates a hitherto unknown gas supply to the ELC. For this purpose we used high resolution computed tomography (HRCT) images processed into three-dimensional (3D) geometry. By the same token, not only a long persistence but also the volume increase of this ELC between 2002 and 2010 was demonstrated. The 3D geometry visualized an aerated interstitial structure between the sites of supposed gas leakage at the wall of the third generation airways and the ELC. This potential gas conducting interstitial pathway is not a continuation and has neither the form nor the structure of a bronchus. The finding suggests that in this patient the intrabronchial gas passes through the bronchial wall and via a gas conducting interstitial pathway reaches the ELC. Despite the availability of the presently employed techniques for at least 15 years, such case and phenomenon have not been described previously. The retrieval of the patient suggests that the findings could be relevant for a considerable proportion of the population.

Published

2015

14. Pulmonary gas conducting interstitial pathway.

Author

Bense, László, Eklund, Gunnar, Jorulf, Håkan, Farkas, Árpád, Eden-Strindberg, Jerker, Gennser, Mikael, Jókay, Ágnes, Krebsz, Ádám, Bense, László, Eklund, Gunnar, Jorulf, Håkan, Farkas, Árpád, Eden-Strindberg, Jerker, Gennser, Mikael, Jókay, Ágnes, and Krebsz, Ádám

Abstract

In spite of the growing efforts oriented towards revealing different aspects of emphysema, the persistence of the emphysematous or emphysema-like changes (ELCs) is not explored yet in the open literature. In this study we demonstrate the persistence of an ELC for 22 years in a spontaneous pneumothorax (SP) patient which indicates a hitherto unknown gas supply to the ELC. For this purpose we used high resolution computed tomography (HRCT) images processed into three-dimensional (3D) geometry. By the same token, not only a long persistence but also the volume increase of this ELC between 2002 and 2010 was demonstrated. The 3D geometry visualized an aerated interstitial structure between the sites of supposed gas leakage at the wall of the third generation airways and the ELC. This potential gas conducting interstitial pathway is not a continuation and has neither the form nor the structure of a bronchus. The finding suggests that in this patient the intrabronchial gas passes through the bronchial wall and via a gas conducting interstitial pathway reaches the ELC. Despite the availability of the presently employed techniques for at least 15 years, such case and phenomenon have not been described previously. The retrieval of the patient suggests that the findings could be relevant for a considerable proportion of the population.

Published

2015

15. Pulmonary gas conducting interstitial pathway.

Author

Bense, László, Eklund, Gunnar, Jorulf, Håkan, Farkas, Árpád, Eden-Strindberg, Jerker, Gennser, Mikael, Jókay, Ágnes, Krebsz, Ádám, Bense, László, Eklund, Gunnar, Jorulf, Håkan, Farkas, Árpád, Eden-Strindberg, Jerker, Gennser, Mikael, Jókay, Ágnes, and Krebsz, Ádám

Abstract

In spite of the growing efforts oriented towards revealing different aspects of emphysema, the persistence of the emphysematous or emphysema-like changes (ELCs) is not explored yet in the open literature. In this study we demonstrate the persistence of an ELC for 22 years in a spontaneous pneumothorax (SP) patient which indicates a hitherto unknown gas supply to the ELC. For this purpose we used high resolution computed tomography (HRCT) images processed into three-dimensional (3D) geometry. By the same token, not only a long persistence but also the volume increase of this ELC between 2002 and 2010 was demonstrated. The 3D geometry visualized an aerated interstitial structure between the sites of supposed gas leakage at the wall of the third generation airways and the ELC. This potential gas conducting interstitial pathway is not a continuation and has neither the form nor the structure of a bronchus. The finding suggests that in this patient the intrabronchial gas passes through the bronchial wall and via a gas conducting interstitial pathway reaches the ELC. Despite the availability of the presently employed techniques for at least 15 years, such case and phenomenon have not been described previously. The retrieval of the patient suggests that the findings could be relevant for a considerable proportion of the population.

Published

2015

16. Pulmonary gas conducting interstitial pathway.

Author

Bense, László, Eklund, Gunnar, Jorulf, Håkan, Farkas, Árpád, Eden-Strindberg, Jerker, Gennser, Mikael, Jókay, Ágnes, Krebsz, Ádám, Bense, László, Eklund, Gunnar, Jorulf, Håkan, Farkas, Árpád, Eden-Strindberg, Jerker, Gennser, Mikael, Jókay, Ágnes, and Krebsz, Ádám

Abstract

In spite of the growing efforts oriented towards revealing different aspects of emphysema, the persistence of the emphysematous or emphysema-like changes (ELCs) is not explored yet in the open literature. In this study we demonstrate the persistence of an ELC for 22 years in a spontaneous pneumothorax (SP) patient which indicates a hitherto unknown gas supply to the ELC. For this purpose we used high resolution computed tomography (HRCT) images processed into three-dimensional (3D) geometry. By the same token, not only a long persistence but also the volume increase of this ELC between 2002 and 2010 was demonstrated. The 3D geometry visualized an aerated interstitial structure between the sites of supposed gas leakage at the wall of the third generation airways and the ELC. This potential gas conducting interstitial pathway is not a continuation and has neither the form nor the structure of a bronchus. The finding suggests that in this patient the intrabronchial gas passes through the bronchial wall and via a gas conducting interstitial pathway reaches the ELC. Despite the availability of the presently employed techniques for at least 15 years, such case and phenomenon have not been described previously. The retrieval of the patient suggests that the findings could be relevant for a considerable proportion of the population.

Published

2015

17. Pulmonary gas conducting interstitial pathway.

Author

Bense, László, Eklund, Gunnar, Jorulf, Håkan, Farkas, Árpád, Eden-Strindberg, Jerker, Gennser, Mikael, Jókay, Ágnes, Krebsz, Ádám, Bense, László, Eklund, Gunnar, Jorulf, Håkan, Farkas, Árpád, Eden-Strindberg, Jerker, Gennser, Mikael, Jókay, Ágnes, and Krebsz, Ádám

Abstract

In spite of the growing efforts oriented towards revealing different aspects of emphysema, the persistence of the emphysematous or emphysema-like changes (ELCs) is not explored yet in the open literature. In this study we demonstrate the persistence of an ELC for 22 years in a spontaneous pneumothorax (SP) patient which indicates a hitherto unknown gas supply to the ELC. For this purpose we used high resolution computed tomography (HRCT) images processed into three-dimensional (3D) geometry. By the same token, not only a long persistence but also the volume increase of this ELC between 2002 and 2010 was demonstrated. The 3D geometry visualized an aerated interstitial structure between the sites of supposed gas leakage at the wall of the third generation airways and the ELC. This potential gas conducting interstitial pathway is not a continuation and has neither the form nor the structure of a bronchus. The finding suggests that in this patient the intrabronchial gas passes through the bronchial wall and via a gas conducting interstitial pathway reaches the ELC. Despite the availability of the presently employed techniques for at least 15 years, such case and phenomenon have not been described previously. The retrieval of the patient suggests that the findings could be relevant for a considerable proportion of the population.

Published

2015

18. Right main bronchus perforation detected by 3D-image

Author

Bense, Laszlo, Eklund, Gunnar, Jorulf, Håkan, Farkas, Arpad, Balashazy, Imre, Hedenstierna, Göran, Krebsz, Adam, Gergely Madas, Balazs, Eden Strindberg, Jerker, Bense, Laszlo, Eklund, Gunnar, Jorulf, Håkan, Farkas, Arpad, Balashazy, Imre, Hedenstierna, Göran, Krebsz, Adam, Gergely Madas, Balazs, and Eden Strindberg, Jerker

Abstract

A male metal worker, who has never smoked, contracted debilitating dyspnoea in 2003 which then deteriorated until 2007. Spirometry and chest x-rays provided no diagnosis. A 3D-image of the airways was reconstructed from a high-resolution CT (HRCT) in 2007, showing peribronchial air on the right side, mostly along the presegmental airways. After digital subtraction of the image of the peribronchial air, a hole on the cranial side of the right main bronchus was detected. The perforation could be identified at the re-examination of HRCTs in 2007 and 2009, but not in 2010 when it had possibly healed. The occupational exposure of the patient to evaporating chemicals might have contributed to the perforation and hampered its healing. A 3D HRCT reconstruction should be considered to detect bronchial anomalies, including wall-perforation, when unexplained dyspnoea or other chest symptoms call for extended investigation.

Published

2011

19. The SP Josephson array voltage standard.

Author

Eklund, Gunnar, Pajander, Hannu, Eklund, Gunnar, and Pajander, Hannu

Published

1995

20. The SP Josephson array voltage standard.

Author

Eklund, Gunnar, Pajander, Hannu, Eklund, Gunnar, and Pajander, Hannu

Published

1995

21. Realisering av induktansenheten.

Author

Eklund, Gunnar and Eklund, Gunnar

Published

1992

22. Realisering av induktansenheten.

Author

Eklund, Gunnar and Eklund, Gunnar

Published

1992

23. Early feeding problems in an affluent society : Determinants

Author

Dahl, Margareta, Sundelin, Claes, Eklund, Gunnar, Dahl, Margareta, Sundelin, Claes, and Eklund, Gunnar

Published

1986

24. Cardiac Glycosides and Breast Cancer Revised : Letter to the Editor

Author

Stenkvist, Björn, Bengtsson, Ewert, Dahlqvist, Bengt, Eklund, Gunnar, Eriksson, Olle, Jarkrans, Torsten, Nordin, Bo, Stenkvist, Björn, Bengtsson, Ewert, Dahlqvist, Bengt, Eklund, Gunnar, Eriksson, Olle, Jarkrans, Torsten, and Nordin, Bo

Published

1982

25. Predicting Breast Cancer Recurrence

Author

Stenkvist, Björn, Bengtsson, Ewert, Dahlqvist, Bengt, Eklund, Gunnar, Eriksson, Olle, Jarkrans, Torsten, Nordin, Bo, Stenkvist, Björn, Bengtsson, Ewert, Dahlqvist, Bengt, Eklund, Gunnar, Eriksson, Olle, Jarkrans, Torsten, and Nordin, Bo

Published

1982

26. Factors of Prognostic Significance in Human Breast Cancer

Author

Stenkvist, Björn, Bengtsson, Ewert, Dahlqvist, Bengt, Eklund, Gunnar, Eriksson, Olle, Nordin, Bo, Stenkvist, Björn, Bengtsson, Ewert, Dahlqvist, Bengt, Eklund, Gunnar, Eriksson, Olle, and Nordin, Bo

Published

1981

27. Analysing the Factors That Make Breast Cancer Recur

Author

Stenkvist, Björn, Bengtsson, Ewert, Dahlqvist, Bengt, Eklund, Gunnar, Eriksson, Olle, Jarkrans, Torsten, Nordin, Bo, Stenkvist, Björn, Bengtsson, Ewert, Dahlqvist, Bengt, Eklund, Gunnar, Eriksson, Olle, Jarkrans, Torsten, and Nordin, Bo

Published

1982

28. Bedömning av återfallsrisk vid bröstcancer

Author

Stenkvist, Björn, Bengtsson, Ewert, Dahlqvist, Bengt, Eklund, Gunnar, Eriksson, Olle, Nordin, Bo, Stenkvist, Björn, Bengtsson, Ewert, Dahlqvist, Bengt, Eklund, Gunnar, Eriksson, Olle, and Nordin, Bo

Published

1981