Pushing the sensitivity boundaries of X-band EPR cryoprobe using a fast microwave switch

Uršulė Tarvydytė; Vidmantas Kalendra; Gediminas Usevičius; James O’Sullivan; Adam Brookfield; Alice M. Bowen; Jūras Banys; John J.L. Morton; Mantas Šimėnas

doi:10.1016/j.jmro.2025.100196

Pushing the sensitivity boundaries of X-band EPR cryoprobe using a fast microwave switch

Uršulė Tarvydytė, Vidmantas Kalendra, Gediminas Usevičius, James O’Sullivan, Adam Brookfield, Alice M. Bowen, Jūras Banys, John J.L. Morton, Mantas Šimėnas

Research output: Contribution to journal › Article › peer-review

Abstract

We present a new design of an X-band EPR cryoprobe based on a fast microwave switch and a cryogenic low-noise microwave amplifier that are placed close to the sample in the same cryostat. The probehead supports high-power (100 W) pulsed EPR experiments and is compatible with standard EPR resonators and samples. In contrast to the directional coupler design of the EPR cryoprobe reported previously, the fast microwave switch fully isolates the microwave amplifier from input thermal noise without microwave power suppression allowing us to approach the sensitivity limit of cryoprobes for pulsed EPR experiments. We benchmark the performance of our cryoprobe setup against a standard commercial EPR instrument revealing a significant sensitivity improvement, which
reduces the measurement time by a factor of about 250× at 6 K sample temperature. We also show that the sensitivity of our new X-band cryoprobe design matches that of a standard Q-band setup for double electron-electron resonance experiments.

Original language	English
Article number	100196
Journal	Journal of Magnetic Resonance Open
Volume	23
Early online date	3 Apr 2025
DOIs	https://doi.org/10.1016/j.jmro.2025.100196
Publication status	Published - 1 Jun 2025

Keywords

pulsed EPR
cryoprobe
LNA
sensitivity
noise

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10.1016/j.jmro.2025.100196Licence: CC BY

Increasing sustainability at the EPR NRF
Mcinnes, E. (PI), Bowen, A. (CoI), Collison, D. (CoI), Gallego Schmid, A. (CoI), Shanmugam, M. (CoI) & Tuna, F. (CoI)
1/01/24 → 31/12/26
Project: Research

Cite this

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title = "Pushing the sensitivity boundaries of X-band EPR cryoprobe using a fast microwave switch",

abstract = "We present a new design of an X-band EPR cryoprobe based on a fast microwave switch and a cryogenic low-noise microwave amplifier that are placed close to the sample in the same cryostat. The probehead supports high-power (100 W) pulsed EPR experiments and is compatible with standard EPR resonators and samples. In contrast to the directional coupler design of the EPR cryoprobe reported previously, the fast microwave switch fully isolates the microwave amplifier from input thermal noise without microwave power suppression allowing us to approach the sensitivity limit of cryoprobes for pulsed EPR experiments. We benchmark the performance of our cryoprobe setup against a standard commercial EPR instrument revealing a significant sensitivity improvement, which reduces the measurement time by a factor of about 250× at 6 K sample temperature. We also show that the sensitivity of our new X-band cryoprobe design matches that of a standard Q-band setup for double electron-electron resonance experiments. ",

keywords = "pulsed EPR, cryoprobe, LNA, sensitivity, noise",

author = "Ur{\v s}ulė Tarvydytė and Vidmantas Kalendra and Gediminas Usevi{\v c}ius and James O{\textquoteright}Sullivan and Adam Brookfield and Bowen, \{Alice M.\} and Jūras Banys and Morton, \{John J.L.\} and Mantas {\v S}imėnas",

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month = jun,

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doi = "10.1016/j.jmro.2025.100196",

language = "English",

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journal = "Journal of Magnetic Resonance Open",

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T1 - Pushing the sensitivity boundaries of X-band EPR cryoprobe using a fast microwave switch

AU - Tarvydytė, Uršulė

AU - Kalendra, Vidmantas

AU - Usevičius, Gediminas

AU - O’Sullivan, James

AU - Brookfield, Adam

AU - Bowen, Alice M.

AU - Banys, Jūras

AU - Morton, John J.L.

AU - Šimėnas, Mantas

PY - 2025/6/1

Y1 - 2025/6/1

N2 - We present a new design of an X-band EPR cryoprobe based on a fast microwave switch and a cryogenic low-noise microwave amplifier that are placed close to the sample in the same cryostat. The probehead supports high-power (100 W) pulsed EPR experiments and is compatible with standard EPR resonators and samples. In contrast to the directional coupler design of the EPR cryoprobe reported previously, the fast microwave switch fully isolates the microwave amplifier from input thermal noise without microwave power suppression allowing us to approach the sensitivity limit of cryoprobes for pulsed EPR experiments. We benchmark the performance of our cryoprobe setup against a standard commercial EPR instrument revealing a significant sensitivity improvement, which reduces the measurement time by a factor of about 250× at 6 K sample temperature. We also show that the sensitivity of our new X-band cryoprobe design matches that of a standard Q-band setup for double electron-electron resonance experiments.

AB - We present a new design of an X-band EPR cryoprobe based on a fast microwave switch and a cryogenic low-noise microwave amplifier that are placed close to the sample in the same cryostat. The probehead supports high-power (100 W) pulsed EPR experiments and is compatible with standard EPR resonators and samples. In contrast to the directional coupler design of the EPR cryoprobe reported previously, the fast microwave switch fully isolates the microwave amplifier from input thermal noise without microwave power suppression allowing us to approach the sensitivity limit of cryoprobes for pulsed EPR experiments. We benchmark the performance of our cryoprobe setup against a standard commercial EPR instrument revealing a significant sensitivity improvement, which reduces the measurement time by a factor of about 250× at 6 K sample temperature. We also show that the sensitivity of our new X-band cryoprobe design matches that of a standard Q-band setup for double electron-electron resonance experiments.

KW - pulsed EPR

KW - cryoprobe

KW - LNA

KW - sensitivity

KW - noise

U2 - 10.1016/j.jmro.2025.100196

DO - 10.1016/j.jmro.2025.100196

M3 - Article

SN - 2666-4410

VL - 23

JO - Journal of Magnetic Resonance Open

JF - Journal of Magnetic Resonance Open

M1 - 100196

ER -

Pushing the sensitivity boundaries of X-band EPR cryoprobe using a fast microwave switch

Abstract

Keywords

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Increasing sustainability at the EPR NRF

Cite this