From tristan at jlab.org Mon Jun 10 08:49:43 2024 From: tristan at jlab.org (Tristan Jones) Date: Mon, 10 Jun 2024 12:49:43 +0000 Subject: [Acc_sem_comm] Available rooms for upcoming Seminar June 13th Message-ID: Good Morning, The large conference rooms have all been spoken for. I have a hold on ARC 231/233 and TL 2236. The ARC is a bigger room, please let me know which of these rooms work best. Ms. Tristan Jones Administrative Support Accelerator Ops, R&D Jefferson Lab 757.269.6330 Room: ARC/704-1 -------------- next part -------------- An HTML attachment was scrubbed... URL: From tristan at jlab.org Mon Jun 10 08:53:15 2024 From: tristan at jlab.org (Tristan Jones) Date: Mon, 10 Jun 2024 12:53:15 +0000 Subject: [Acc_sem_comm] Accel Sem: June 13 - Info Needed In-Reply-To: References: Message-ID: Good Morning and Thanks! I just need the title of your talk From: Eric Lechner Sent: Sunday, June 9, 2024 3:57 PM To: Tristan Jones Subject: Re: Accel Sem: June 13 - Info Needed Hi Tristan, See below and attached: 1. Bio * I earned a PhD in physics from Temple University in 2019 under Maria Iavarone studying superconductors via scanning tunneling microscopy. * In 2020, I joined JLab as a post doctoral researcher under Ari Palczewski and Charlie Reece studying impurities in niobium. * In 2022, I Joined JLab as a staff scientist continuing research related to high Q and high gradient 1. See attached head shot 1. Abstract: We generalize a native Nb2O5 dissolution model [G. Ciovati, Appl. Phys. Lett. 89, 022507 (2006)] to sequential overlayer dissolutions, multilayer dissolution, and realistic temperature profiles, which may be applicable to other materials. The model is applied to secondary ion mass spectrometry depth profile measurements for varying temperature profiles and two-step oxide dissolution in Nb and found to agree well. In the context of the Meissner screening response due to impurity profiles on the length scale of the London penetration depth, the shallow diffusion of O impurities results in a substantial decrease in the peak supercurrent density near the surface. In this framework, oxide dissolution and oxygen diffusion can account for a rise in peak supportable magnetic field in SRF cavities with baking time and a suppression after the optimal baking time is reached, in good agreement with peak-field baking temperatures and times as well as recent quench field measurements. 1. See attached graphic Best, -Eric ________________________________ From: Tristan Jones > Sent: Thursday, June 6, 2024 12:12 PM To: Eric Lechner > Subject: FW: Accel Sem: June 13 - Info Needed Hi Eric, Thank you for accepting the invitation to give an Accelerator Seminar, on June 13th. Please send the following: * Bio * Headshot * Abstract * Teaser graphic Ms. Tristan Jones Administrative Support Accelerator Ops, R&D Jefferson Lab 757.269.6330 Room: ARC/704-1 -------------- next part -------------- An HTML attachment was scrubbed... URL: From lechner at jlab.org Mon Jun 10 08:54:53 2024 From: lechner at jlab.org (Eric Lechner) Date: Mon, 10 Jun 2024 12:54:53 -0000 Subject: [Acc_sem_comm] Accel Sem: June 13 - Info Needed In-Reply-To: References: Message-ID: Please use: Oxide dissolution and oxygen diffusion scenarios in niobium and implications on the Bean?Livingston barrier in superconducting cavities Get Outlook for iOS ________________________________ From: Tristan Jones Sent: Monday, June 10, 2024 8:53:15 AM To: Eric Lechner Cc: Pashupati Dhakal ; Acc_Sem_Comm at jlab.org Subject: RE: Accel Sem: June 13 - Info Needed Good Morning and Thanks! I just need the title of your talk From: Eric Lechner Sent: Sunday, June 9, 2024 3:57 PM To: Tristan Jones Subject: Re: Accel Sem: June 13 - Info Needed Hi Tristan, See below and attached: 1. Bio * I earned a PhD in physics from Temple University in 2019 under Maria Iavarone studying superconductors via scanning tunneling microscopy. * In 2020, I joined JLab as a post doctoral researcher under Ari Palczewski and Charlie Reece studying impurities in niobium. * In 2022, I Joined JLab as a staff scientist continuing research related to high Q and high gradient 1. See attached head shot 1. Abstract: We generalize a native Nb2O5 dissolution model [G. Ciovati, Appl. Phys. Lett. 89, 022507 (2006)] to sequential overlayer dissolutions, multilayer dissolution, and realistic temperature profiles, which may be applicable to other materials. The model is applied to secondary ion mass spectrometry depth profile measurements for varying temperature profiles and two-step oxide dissolution in Nb and found to agree well. In the context of the Meissner screening response due to impurity profiles on the length scale of the London penetration depth, the shallow diffusion of O impurities results in a substantial decrease in the peak supercurrent density near the surface. In this framework, oxide dissolution and oxygen diffusion can account for a rise in peak supportable magnetic field in SRF cavities with baking time and a suppression after the optimal baking time is reached, in good agreement with peak-field baking temperatures and times as well as recent quench field measurements. 1. See attached graphic Best, -Eric ________________________________ From: Tristan Jones > Sent: Thursday, June 6, 2024 12:12 PM To: Eric Lechner > Subject: FW: Accel Sem: June 13 - Info Needed Hi Eric, Thank you for accepting the invitation to give an Accelerator Seminar, on June 13th. Please send the following: * Bio * Headshot * Abstract * Teaser graphic Ms. Tristan Jones Administrative Support Accelerator Ops, R&D Jefferson Lab 757.269.6330 Room: ARC/704-1 -------------- next part -------------- An HTML attachment was scrubbed... URL: