![Double‐row 18‐loop transceive–32‐loop receive tight‐fit array provides for whole‐brain coverage, high transmit performance, and SNR improvement near the brain center at 9.4T - Avdievich - 2019 - Magnetic Resonance in Medicine - Double‐row 18‐loop transceive–32‐loop receive tight‐fit array provides for whole‐brain coverage, high transmit performance, and SNR improvement near the brain center at 9.4T - Avdievich - 2019 - Magnetic Resonance in Medicine -](https://onlinelibrary.wiley.com/cms/asset/0f974fb2-7b3f-46d2-8d00-4ff17dfd4da6/mrm27602-fig-0009-m.jpg)
Double‐row 18‐loop transceive–32‐loop receive tight‐fit array provides for whole‐brain coverage, high transmit performance, and SNR improvement near the brain center at 9.4T - Avdievich - 2019 - Magnetic Resonance in Medicine -
A) CST model of the phased array loaded by the head and shoulder (HS)... | Download Scientific Diagram
![Metabolite‐cycled STEAM and semi‐LASER localization for MR spectroscopy of the human brain at 9.4T - Giapitzakis - 2018 - Magnetic Resonance in Medicine - Wiley Online Library Metabolite‐cycled STEAM and semi‐LASER localization for MR spectroscopy of the human brain at 9.4T - Giapitzakis - 2018 - Magnetic Resonance in Medicine - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/2def9838-51de-4bec-ac18-999570f1ae1e/mrm26873-fig-0001-m.jpg)
Metabolite‐cycled STEAM and semi‐LASER localization for MR spectroscopy of the human brain at 9.4T - Giapitzakis - 2018 - Magnetic Resonance in Medicine - Wiley Online Library
![Transversal g-factor maps obtained using the head and shoulder (HS)... | Download Scientific Diagram Transversal g-factor maps obtained using the head and shoulder (HS)... | Download Scientific Diagram](https://www.researchgate.net/profile/Nikolai-Avdievich/publication/321856374/figure/fig5/AS:920372484517888@1596445308430/Transversal-g-factor-maps-obtained-using-the-head-and-shoulder-HS-phantom-and-the_Q320.jpg)
Transversal g-factor maps obtained using the head and shoulder (HS)... | Download Scientific Diagram
![Metabolite‐cycled STEAM and semi‐LASER localization for MR spectroscopy of the human brain at 9.4T - Giapitzakis - 2018 - Magnetic Resonance in Medicine - Wiley Online Library Metabolite‐cycled STEAM and semi‐LASER localization for MR spectroscopy of the human brain at 9.4T - Giapitzakis - 2018 - Magnetic Resonance in Medicine - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/0a0bf284-11bc-4f2f-8bbe-baea7fe34ef8/mrm26873-fig-0002-m.jpg)
Metabolite‐cycled STEAM and semi‐LASER localization for MR spectroscopy of the human brain at 9.4T - Giapitzakis - 2018 - Magnetic Resonance in Medicine - Wiley Online Library
![Metabolite‐cycled STEAM and semi‐LASER localization for MR spectroscopy of the human brain at 9.4T - Giapitzakis - 2018 - Magnetic Resonance in Medicine - Wiley Online Library Metabolite‐cycled STEAM and semi‐LASER localization for MR spectroscopy of the human brain at 9.4T - Giapitzakis - 2018 - Magnetic Resonance in Medicine - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/6d38b59f-d049-4eed-a2fe-0e82ff0dc6f5/mrm26873-fig-0004-m.jpg)
Metabolite‐cycled STEAM and semi‐LASER localization for MR spectroscopy of the human brain at 9.4T - Giapitzakis - 2018 - Magnetic Resonance in Medicine - Wiley Online Library
![Metabolite‐cycled STEAM and semi‐LASER localization for MR spectroscopy of the human brain at 9.4T - Giapitzakis - 2018 - Magnetic Resonance in Medicine - Wiley Online Library Metabolite‐cycled STEAM and semi‐LASER localization for MR spectroscopy of the human brain at 9.4T - Giapitzakis - 2018 - Magnetic Resonance in Medicine - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/7601618b-f042-4109-b79e-d47a180ac05e/mrm26873-fig-0007-m.jpg)
Metabolite‐cycled STEAM and semi‐LASER localization for MR spectroscopy of the human brain at 9.4T - Giapitzakis - 2018 - Magnetic Resonance in Medicine - Wiley Online Library
![A) Photograph of the phased array without the cover for better view of... | Download Scientific Diagram A) Photograph of the phased array without the cover for better view of... | Download Scientific Diagram](https://www.researchgate.net/profile/Nikolai-Avdievich/publication/321856374/figure/fig1/AS:920372480339969@1596445307149/A-Photograph-of-the-phased-array-without-the-cover-for-better-view-of-the-components_Q640.jpg)
A) Photograph of the phased array without the cover for better view of... | Download Scientific Diagram
![Decoupling of a tight‐fit transceiver phased array for human brain imaging at 9.4T: Loop overlapping rediscovered - Avdievich - 2018 - Magnetic Resonance in Medicine - Wiley Online Library Decoupling of a tight‐fit transceiver phased array for human brain imaging at 9.4T: Loop overlapping rediscovered - Avdievich - 2018 - Magnetic Resonance in Medicine - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/4d1000fd-21c6-4510-b24b-f66d7c06de79/mrm26754-fig-0003-m.jpg)
Decoupling of a tight‐fit transceiver phased array for human brain imaging at 9.4T: Loop overlapping rediscovered - Avdievich - 2018 - Magnetic Resonance in Medicine - Wiley Online Library
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![Investigation of the influence of macromolecules and spline baseline in the fitting model of human brain spectra at 9.4T - Giapitzakis - 2019 - Magnetic Resonance in Medicine - Wiley Online Library Investigation of the influence of macromolecules and spline baseline in the fitting model of human brain spectra at 9.4T - Giapitzakis - 2019 - Magnetic Resonance in Medicine - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/cc983376-ee0c-4be8-ba4a-9e4dd589b8e4/mrm27467-fig-0001-m.jpg)
Investigation of the influence of macromolecules and spline baseline in the fitting model of human brain spectra at 9.4T - Giapitzakis - 2019 - Magnetic Resonance in Medicine - Wiley Online Library
![Double‐row 18‐loop transceive–32‐loop receive tight‐fit array provides for whole‐brain coverage, high transmit performance, and SNR improvement near the brain center at 9.4T - Avdievich - 2019 - Magnetic Resonance in Medicine - Double‐row 18‐loop transceive–32‐loop receive tight‐fit array provides for whole‐brain coverage, high transmit performance, and SNR improvement near the brain center at 9.4T - Avdievich - 2019 - Magnetic Resonance in Medicine -](https://onlinelibrary.wiley.com/cms/asset/a7505481-ffbc-4e79-b052-3c5d9500fd2f/mrm27602-fig-0003-m.jpg)
Double‐row 18‐loop transceive–32‐loop receive tight‐fit array provides for whole‐brain coverage, high transmit performance, and SNR improvement near the brain center at 9.4T - Avdievich - 2019 - Magnetic Resonance in Medicine -
![Decoupling of a tight‐fit transceiver phased array for human brain imaging at 9.4T: Loop overlapping rediscovered - Avdievich - 2018 - Magnetic Resonance in Medicine - Wiley Online Library Decoupling of a tight‐fit transceiver phased array for human brain imaging at 9.4T: Loop overlapping rediscovered - Avdievich - 2018 - Magnetic Resonance in Medicine - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/1540cfd3-5c47-4657-87c1-907cfbc70618/mrm26754-fig-0007-m.jpg)