This paper presents the basic principle of the pulse-driven ac Josephson voltage standard, also called “Josephson arbitrary waveform synthesizer” (JAWS). We will mainly focus on activities and developments at the Physikalisch-Technische Bundesanstalt (PTB). The JAWS is suitable to generate high precision quantized waveforms, which can be arbitrarily programmed in the frequency and time domain with extremely high spectral purity (typical signal-to-noise ratios SNR of 120–140 dBc). A brief overview of the fabrication technology for highly integrated JAWS circuits with more than 50 000 junctions per chip will be described. This includes the stacked junction technology with up to 5-stacked junctions. The experimental setup and the key-features of JAWS will be shown too. New approaches designed to further increase the output voltage, to simplify the experimental setup, and to extend the range of applications are the on-chip power dividers, the optical pulse drive, and the RF-JAWS. A selected application of the JAWS is described to demonstrate the usability of sophisticated JAWS waveforms for the complex characterization of electrical devices. The PTB JAWS circuits already have a significant impact on the quantum ac voltage metrology community. JAWS chips made at PTB have been distributed to more than 10 national metrology and other research institutes within the framework of international research projects.

1.
S. P.
Benz
and
C. A.
Hamilton
,
Appl. Phys. Lett.
68
,
3171
(
1996
).
2.
R.
Schreier
and
T.
Temes
,
Understanding Delta-Sigma Data Converters
(
Pisctaway, IEEE Press
,
New Jersey
,
2005
).
3.
M.
Watanabe
,
P. D.
Dresselhaus
, and
S. P.
Benz
,
IEEE Trans. Appl. Supercond.
16
,
49
(
2006
).
4.
O.
Kieler
,
R.
Iuzzolino
, and
J.
Kohlmann
,
IEEE Trans. Appl. Supercond.
19
,
230
(
2009
).
5.
O.
Kieler
,
J.
Kohlmann
,
R.
Behr
,
F.
Müller
,
L.
Palafox
, and
J.
Niemeyer
,
IEEE Trans. Appl. Supercond.
17
,
187
(
2007
).
6.
O.
Kieler
,
J.
Kohlmann
, and
F.
Müller
,
Supercond. Sci. Technol.
20
,
318
(
2007
).
7.
B.
Baek
,
P. D.
Dresselhaus
, and
S. P.
Benz
,
IEEE Trans. Appl. Supercond.
16
,
1966
(
2006
).
8.
O.
Kieler
,
R.
Behr
, and
J.
Kohlmann
,
ISEC 2013, in Proceedings 14th International Superconductive Electronics Conference
,
Cambridge, USA
, 59 (7–11 July 2013).
9.
O.
Kieler
,
R.
Wendisch
,
R.
Gerdau
,
T.
Weimann
,
J.
Kohlmann
, and
R.
Behr
,
IEEE Trans. Appl. Supercond.
31
,
1100705
(
2021
).
10.
O.
Kieler
,
R.
Behr
,
R.
Wendisch
,
S.
Bauer
,
L.
Palafox
, and
J.
Kohlmann
,
IEEE Trans. Appl. Supercond.
25
,
1400305
(
2015
).
11.
R.
Behr
,
O.
Kieler
, and
B.
Schumacher
,
IEEE Trans. Instr. Meas.
66
,
1385
(
2017
).
12.
O.
Kieler
,
T.
Scheller
, and
J.
Kohlmann
,
World J. Condens. Matter Physics
3
,
198
(
2013
).
13.
S. P.
Benz
,
C. J.
Burroughs
, and
P. D.
Dresselhaus
,
IEEE Trans. Appl. Supercond.
11
,
612
(
2001
).
14.
S.
Bauer
,
R.
Behr
,
T.
Hagen
,
O.
Kieler
,
J.
Lee
,
L.
Palafox
, and
J.
Schurr
,
Metrologia
54
,
152
(
2017
).
15.
H. v. d.
Brom
,
O.
Kieler
,
S.
Bauer
, and
E.
Houtzager
,
CPEM2016, in Proceedings Conference on Precision Electromagnetic Measurements
,
Ottawa, Canada
, 1 (10–15 July 2016).
16.
M. Y.
Kupriyanov
,
A.
Brinkman
,
A. A.
Golubov
,
M.
Siegel
, and
H.
Rogalla
,
Physica C
326
,
16
(
1999
).
17.
O.
Kieler
, Pulsgetriebenes AC-Josephson-Spannungsnormal—Josephson Arbitrary Waveform Synthesizer, Thesis, Techn-Univ. Ilmenau, Germany, Bremen: Fachverlag NW in der Schünemann Verlag GmbH (
2017
), ISBN 978-3-95606-303-9.
18.
S. P.
Benz
,
S. B.
Waltman
,
A. E.
Fox
,
P. D.
Dresselhaus
,
A.
Rüfenacht
,
J. M.
Underwood
,
L. A.
Howe
,
R. E.
Schwall
, and
C. J.
Burroughs
,
IEEE Trans. Appl. Supercond.
25
,
1300108
(
2015
).
19.
C. J.
Burroughs
,
S. P.
Benz
,
P. D.
Dresselhaus
, and
Y.
Chong
,
IEEE Trans. Instrum. Meas.
54
,
624
(
2005
).
20.
R.
Behr
,
O.
Kieler
,
J.
Kohlmann
,
F.
Mueller
, and
L.
Palafox
,
Meas. Sci. Technol.
23
,
124002
(
2012
).
21.
R.
Behr
,
O.
Kieler
,
J.
Lee
,
S.
Bauer
,
L.
Palafox
, and
J.
Kohlmann
,
Metrologia
52
,
528
(
2015
).
22.
O.
Kieler
and
R.
Behr
, unpublished (
2020
).
23.
O.
Kieler
,
R.
Behr
,
R.
Wendisch
, and
J.
Kohlmann
,
EUCAS-2017, in Proceedings 13th European Conference on Applied Superconductivity
,
Geneva, Switzerland
(17–21 September 2017).
24.
O.
Kieler
,
B.
Karlsen
,
P. A.
Ohlckers
,
E.
Bardalen
,
M. N.
Akram
,
R.
Behr
,
J.
Ireland
,
J. M.
Williams
,
H.
Malmbekk
,
L.
Palafox
, and
R.
Wendisch
,
IEEE Trans. Appl. Supercond.
29
,
1200205
(
2019
).
25.
J.
Ireland
,
J. M.
Williams
,
O.
Kieler
,
J.
Kohlmann
,
R.
Behr
,
J.
Gran
,
H.
Malmbekk
,
B.
Karlsen
,
K.
Lind
,
E.
Bardalen
,
H. V.
Nguen
,
P.
Ohlckers
,
E.
Houtzager
,
R.
Hornecker
, and
H. v. d.
Brom
,
ISEC-2017, in Proceedings 16th International Superconductive Electronics Conference
,
Sorrento, Italy
, 12 (June 2017).
26.
E.
Bardalen
,
B.
Karlsen
,
H.
Malmbekk
,
O.
Kieler
,
M. N.
Akram
, and
P.
Ohlckers
,
IEEE Trans. Comp. Pack. Manuf. Technol.
7
,
1395
(
2017
).
27.
E.
Bardalen
,
B.
Karlsena
,
H.
Malmbekk
,
M. N.
Akrama
, and
P.
Ohlckers
,
Microelectronics Reliability
81
,
362
(
2018
).
28.
J.
Ireland
,
J.
Williams
,
O.
Kieler
,
R.
Behr
,
E.
Houtzager
,
R.
Hornecker
, and
H. v. d.
Brom
,
IEEE Trans. Instr. Meas.
68
,
2066
(
2019
).
29.
B.
Karlsen
,
O.
Kieler
,
R.
Behr
,
T. A. T.
Nguyen
,
H.
Malmbekk
,
M. N.
Akram
, and
P.
Ohlckers
,
IEEE Trans. Appl. Supercond.
29
,
1200308
(
2019
).
30.
E.
Bardalen
,
J.
Nissilä
,
T.
Fordell
,
B.
Karlsen
,
O.
Kieler
, and
P.
Ohlckers
,
IEEE 8th Electronics System-Integration Technology Conference (ESTC) on IEEE Xplore
,
Tönsberg, Norway
(15–18 September 2020).
31.
B.
Karlsen
,
E.
Bardalen
,
J.
Nissilä
,
O.
Kieler
,
L.
Palafox
,
R.
Behr
,
H.
Malmbekk
,
M. N.
Akram
, and
P.
Ohlckers
,
CPEM2020, in Proceedings Conference on Precision Electromagnetic Measurements
,
Denver, USA
(24–28 August 2020).
32.
J.
Herick
,
L.
Palafox
,
E.
Bardalen
,
S.
Bauer
,
R.
Behr
,
B.
Karlsen
,
O.
Kieler
, and
H.
Malmbekk
,
CPEM2020, in Proceedings Conference on Precision Electromagnetic Measurements
,
Denver, USA
(24–28 August 2020).
33.
O.
Kieler
,
H.
Tian
,
M.
Kraus
,
S.
Priyadarshi
,
J.
Felgner
,
A.
Fernández Scarioni
,
J.
Kohlmann
, and
M.
Bieler
,
Open research Europe – electrical
,
Electronic and Information Engineering
4
,
97
(
2024
).
34.
M.
Kraus
,
O.
Kieler
,
R.
Behr
, and
L.
Palafox
,
accepted for CPEM2024, Conference on Precision Electromagnetic Measurements
,
Denver, USA
(8–12 July 2024).
35.
N. E.
Flower-Jacobs
,
A. E.
Fox
,
P. D.
Dresselhaus
,
R. E.
Schwall
, and
S. P.
Benz
,
IEEE Trans. Appl. Supercond.
26
,
1400207
(
2016
).
36.
H.
Yamamori
and
S.
Kohjiro
,
IEEE Trans. Appl. Supercond.
26
,
1400404
(
2016
).
37.
H.
Tian
,
O.
Kieler
,
R.
Behr
,
R.
Wendisch
,
R.
Gerdau
,
K.
Kuhlmann
, and
J.
Kohlmann
,
IEEE Trans. Appl. Supercond.
30
,
1100105
(
2020
).
38.
H.
Tian
,
O.
Kieler
,
R.
Behr
,
R.
Gerdau
,
K.
Kuhlmann
, and
J.
Kohlmann
,
IEEE Trans. Appl. Supercond.
31
,
1100305
(
2021
).
39.
H.
Tian
, Development of RF power dividers for high integrated circuits of AC Josephson voltage standards, Thesis, Techn-Univ. Braunschweig, Germany, Berlin: Bremen: Mensch und Buch Verlag (
2022
), ISBN 978-3-96729-176-6.
40.
C. A.
Donnelly
,
N. E.
Flowers-Jacobs
,
J. A.
Brevik
,
A. E.
Fox
,
P. D.
Dresselhaus
,
P. F.
Hopkins
, and
S. P.
Benz
,
IEEE Trans. Appl. Supercond.
30
,
1400111
(
2020
).
41.
O.
Kieler
,
H.
Tian
,
A.
Widaa
,
S.
Wolter
,
R.
Gerdau
,
A.
Fernández Scarioni
,
S.
Priyadarshi
,
J.
Kohlmann
, and
M.
Bieler
,
accepted for ASC 2024 conference, Salt-Lake City
,
USA
(1–6 September 2024).
42.
L.
Palafox
,
R.
Behr
,
O.
Kieler
,
J.
Lee
,
I.
Budovsky
,
S.
Bauer
, and
T.
Hagen
,
CPEM 2016, in Proceedings Conference on Precision Electromagnetic Measurements
,
Ottawa, Canada
(10–15 July 2016).
43.
R.
Lapuh
,
B.
Voljc
,
M.
Lindic
, and
O.
Kieler
,
IEEE Trans. Instr. Meas.
66
,
1089
(
2017
).
44.
J. D.
de Aguilar
,
J.
Salinas
,
O.
Kieler
,
R.
Caballero
,
R.
Behr
,
Y. A.
Sanmamed
, and
A.
Mendez
,
Meas. Sci. Technol.
30
,
035006
(
2019
).
45.
M.
Sira
,
O.
Kieler
, and
R.
Behr
,
IEEE Trans. Instr. Meas.
68
,
2091
(
2019
).
46.
T.
Öztürk
,
J.
Kohlmann
,
O.
Kieler
,
T.
Möhring
, and
R.
Behr
,
CPEM 2014, in Proceedings Conference on Precision Electromagnetic Measurements
,
Rio de Janeiro, Brazil
(24–29 August 2014).
47.
J.
Herick
,
S.
Bauer
,
R.
Behr
,
F.
Beug
,
O.
Kieler
, and
L.
Palafox
,
CPEM2018, in Proceedings Conference on Precision Electromagnetic Measurements
,
Paris, France
(8–13 July 2018).
48.
A.
Sosso
,
P.
Durandetto
,
R.
Behr
, and
O.
Kieler
,
CPEM2018, in Proceedings Conference on Precision Electromagnetic Measurements,
Paris, France
(8–13 July 2018).
49.
S.
Bauer
,
R.
Behr
,
O.
Kieler
,
J.
Lee
,
L.
Palafox
, and
J.
Schurr
,
CPEM2018, in Proceedings Conference on Precision Electromagnetic Measurements
,
Paris, France
(8–13 July 2018).
50.
S.
Bauer
,
Y.
Pimsut
,
R.
Behr
,
O.
Kieler
,
M.
Kruskopf
,
L.
Palafox
,
J.
Lee
, and
J.
Schurr
,
CPEM2020, in Proceedings Conference on Precision Electromagnetic Measurements
,
Denver, USA
(24–28 Aug. 2020).
51.
Y.
Pimsut
,
S.
Bauer
,
J.
Herick
,
L.
Palafox
,
O.
Kieler
, and
R.
Behr
,
CPEM2020, in Proceedings Conference on Precision Electromagnetic Measurements
,
Denver, USA
(24–28 Aug. 2020).
52.
M.
Marzano
,
Y.
Pimsut
,
M.
Kruskopf
,
Y.
Yin
,
M.
Kraus
,
V.
D’Elia
,
L.
Callegaro
,
M.
Ortolano
,
S.
Bauer
, and
R.
Behr
,
Metrologia
59
,
065001
(
2022
).
53.
M.
Kraus
,
O.
Kieler
,
R.
Behr
,
J.
Herick
,
S.
Bauer
,
L.
Palafox
, and
F.
Ahlers
,
CPEM2018, in Proceedings Conference on Precision Electromagnetic Measurements
,
Paris, France
(8–13 July 2018).
54.
D.
Drung
and
C.
Krause
,
Review of Scienctific Instruments
92
,
034901
(
2021
).
55.
D.
Drung
,
M.
Kraus
, and
C.
Krause
,
Measurement and Science Technology
33
,
015008
(
2022
).
You do not currently have access to this content.