Home of HERD

Ultra-low-loss
IR-blocking filters

Drain high-energy radiation while preserving signal integrity. <0.15 dB in-band loss, >60 dB attenuation above 70 GHz.

ContactHERD-2 data sheet
Core Capabilities

HERD at a glance

Ultra-low passband loss that preserves qubit control and readout fidelity.

Module 01
SQ

>70 GHz blocking

Comprehensive blocking of high-frequency noise across the entire infrared spectrum with >60 dB attenuation.

Specification
Module 02
SQ

<0.15 dB loss

<0.15 dB insertion loss - the lowest available on the market. Preserves signal integrity for longer qubit coherence times.

Specification
Module 03
SQ

Cryo-ready

Designed and tested for operation at millikelvin temperatures typical of dilution refrigerator environments.

Specification
Module 04
SQ

Quantum-native

Purpose-built for superconducting quantum circuits with materials and geometries optimized for quantum applications.

Specification

How HERD stacks up

Room-temperature measurements up to 140 GHz

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Validation from the field

Peer-reviewed publications from 2025 demonstrate real-world quantum system applications

2025Yale University

Recovery dynamics of a gap-engineered transmon after a quasiparticle burst

Gap-engineered transmons show reduced sensitivity to quasiparticle bursts. Elevated substrate temperature allows quasiparticles to overcome the engineered gap. Relaxation recovers rapidly, but thermal effects highlight constraints of gap engineering alone.

doi.org/10.48550/arXiv.2505.08104
2025Princeton University

2D transmons with lifetimes and coherence times exceeding 1 millisecond

Demonstrates tantalum transmons on high-resistivity silicon reaching 2D qubit lifetimes up to ~1.7 ms and high echo coherence. Supports 99.994% single-qubit gate fidelity, representing a major step toward practical, wafer-scalable quantum processors.

doi.org/10.48550/arXiv.2503.14798
2025PTB

An rf-SQUID-based traveling-wave parametric amplifier with -84 dBm input saturation power

Presents an rf-SQUID-based Josephson TWPA achieving −84 dBm average saturation power and ~20 dB gain over 3.5–8.5 GHz. This architecture provides near-quantum-limited noise performance through the use of thousands of coupled rf-SQUID cells.

doi.org/10.48550/arXiv.2503.02489
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Lineup

Products

See our HERD family

Latest
HERD-2

2nd generation

HERD-2

Compact, non-magnetic filter for advanced cryogenic systems. Our latest and most advanced IR-blocking filter with industry-leading performance.

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