Pith Number

pith:7HELEQPD

pith:2026:7HELEQPD3QMH3QYRMTN3KLCFB2

not attested not anchored not stored refs resolved

GPU-Accelerated Simulation of 3D Diamond Sensors Using the TeRABIT Infrastructure

Clarissa Buti, Elia Eredi, Giovanni Passaleva, Lucio Anderlini

GPU porting of a third-order PDE solver for time-dependent weighting potentials speeds up 3D diamond sensor simulations.

arxiv:2605.13987 v1 · 2026-05-13 · physics.ins-det

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\usepackage{pith}
\pithnumber{7HELEQPD3QMH3QYRMTN3KLCFB2}

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Record completeness

1 Bitcoin timestamp

2 Internet Archive

3 Author claim open · sign in to claim

4 Citations open

5 Replications open

✓ Portable graph bundle live · download bundle · merged state

The bundle contains the canonical record plus signed events. A mirror can host it anywhere and recompute the same current state with the deterministic merge algorithm.

Claims

C1strongest claim

The numerical solution of the third-order PDE for time-dependent weighting potentials has been ported to GPUs and distributed across multiple sites using TeRABIT, drastically reducing time-to-insight and enabling what-if studies on sensor geometry.

C2weakest assumption

The quasi-static approximation of Maxwell's laws remains accurate for modeling signal propagation and readout effects inside the diamond volume without needing full time-dependent electromagnetic treatment.

C3one line summary

A spectral solver for time-dependent weighting potentials in diamond detectors has been ported to GPUs via TeRABIT to accelerate simulation of signal formation and sensor design optimization.

References

15 extracted · 15 resolved · 1 Pith anchors

[1] Michal Pomorski , title = "

[2] High Mobility Diamonds and Particle Detectors · doi:10.1002/9783527623174.ch12

[3] Operation and performance of the active target of PADME 2020 · doi:10.1016/j.nima.2019.162354

[4] Performance of 3D diamond detectors in small field dosimetry: the impact of pixel size 2022 · doi:10.1016/j.ejmp.2022.09.006

[5] Fabrication and First Full Characterisation of Timing Properties of 3D Diamond Detectors 2021 · doi:10.3390/instruments5040039

Formal links

2 machine-checked theorem links

Receipt and verification

First computed	2026-05-17T23:39:13.298871Z
Builder	pith-number-builder-2026-05-17-v1
Signature	Pith Ed25519 (`pith-v1-2026-05`) · public key
Schema	pith-number/v1.0

Canonical hash

f9c8b241e3dc187dc31164dbb52c450e91194e60d117f505cfb2d9719a0da7a0

Aliases

arxiv: 2605.13987 · arxiv_version: 2605.13987v1 · doi: 10.48550/arxiv.2605.13987 · pith_short_12: 7HELEQPD3QMH · pith_short_16: 7HELEQPD3QMH3QYR · pith_short_8: 7HELEQPD

Agent API

Resolver JSON Graph JSON Events JSON Schema Signing key

Verify this Pith Number yourself

curl -sH 'Accept: application/ld+json' https://pith.science/pith/7HELEQPD3QMH3QYRMTN3KLCFB2 \
  | jq -c '.canonical_record' \
  | python3 -c "import sys,json,hashlib; b=json.dumps(json.loads(sys.stdin.read()), sort_keys=True, separators=(',',':'), ensure_ascii=False).encode(); print(hashlib.sha256(b).hexdigest())"
# expect: f9c8b241e3dc187dc31164dbb52c450e91194e60d117f505cfb2d9719a0da7a0

Canonical record JSON

{
  "metadata": {
    "abstract_canon_sha256": "0c706fac25f41dad9b63fe64022a71a79fdb75d1383f52e5a62461f3b6205001",
    "cross_cats_sorted": [],
    "license": "http://creativecommons.org/licenses/by/4.0/",
    "primary_cat": "physics.ins-det",
    "submitted_at": "2026-05-13T18:01:57Z",
    "title_canon_sha256": "018ad85870f8f64fec69ec3b4d4218bb342bef0781df97e10c8f7f16de09da28"
  },
  "schema_version": "1.0",
  "source": {
    "id": "2605.13987",
    "kind": "arxiv",
    "version": 1
  }
}