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SJR83 • 2026

Commemorates 75th anniversary of Princeton Plasma Physics Laboratory.

Commemorates 75th anniversary of Princeton Plasma Physics Laboratory.

Passed Legislature

This bill passed both chambers and reached final enrollment, even if later executive action is not shown here.

Sponsor
Zwicker, Andrew
Last action
2026-02-09
Official status
Introduced in the Senate, Referred to Senate State Government, Wagering, Tourism & Historic Preservation Committee
Effective date
Not listed

Plain English Breakdown

Using official source text because the generated explanation was unavailable or could not be confirmed against the official bill text.

Commemorates 75th anniversary of Princeton Plasma Physics Laboratory.

Commemorates 75th anniversary of Princeton Plasma Physics Laboratory.

What This Bill Does

  • Commemorates 75th anniversary of Princeton Plasma Physics Laboratory.
  • Topic: State Government, Wagering, Tourism & Historic Preservation Fiscal note: This bill has not been certified by OLS for a fiscal note.

Limits and Unknowns

  • This entry is temporarily using official source text because the generated explanation could not be confirmed against the official bill text during the last sync.

Bill History

  1. 2026-02-09 New Jersey Legislature

    Introduced in the Senate, Referred to Senate State Government, Wagering, Tourism & Historic Preservation Committee

Official Summary Text

Commemorates 75th anniversary of Princeton Plasma Physics Laboratory.
Topic:
State Government, Wagering, Tourism & Historic Preservation
Fiscal note:
This bill has not been certified by OLS for a fiscal note.

Current Bill Text

Read the full stored bill text
SJR83

SENATE JOINT RESOLUTION

No. 83

STATE OF NEW JERSEY

222nd LEGISLATURE

�

INTRODUCED FEBRUARY 9, 2026

Sponsored by:

Senator� ANDREW ZWICKER

District 16 (Hunterdon, Mercer, Middlesex and Somerset)

SYNOPSIS

���� Commemorates 75th anniversary of Princeton Plasma
Physics Laboratory.

CURRENT VERSION OF TEXT

���� As introduced.

��

A Joint
Resolution

commemorating the 75th
anniversary of the Princeton Plasma Physics Laboratory.

Whereas,

The United States Atomic Energy Commission approved funding for the
construction of a magnetic plasma device to study controlled fusion at
Princeton University under the direction of Dr. Lyman Spitzer, Jr., in July
1951; and

Whereas,

The research effort became part of Project Matterhorn, a classified project
studying the hydrogen bomb during the Cold War between the United States and
the former Soviet Union; and

Whereas,

The B-65 stellarator, a fusion power device developed as part of the project,
began operation in 1957 using a geometry now known as a tokamak; and

Whereas,

Controlled thermonuclear research was declassified in 1958 and Princeton
University shared its research with the world by exhibiting a working
stellarator, B-2, in Geneva, Switzerland at the United Nations� Second
International Conference on the Peaceful Uses of Atomic Energy; and

Whereas,

That same year, Project Matterhorn�s first linear device, L-1, began operation
for the study of basic plasma physics; and

Whereas,

Princeton University awarded its first doctoral degree in plasma physics in
1959; and

Whereas,

Dr. Melvin B. Gottlieb succeeded Dr. Lyman Spitzer, Jr., as the head of Project
Matterhorn and the project was renamed the Princeton Plasma Physics Laboratory
in 1961; and

Whereas,

The Princeton Plasma Physics Laboratory has been a leader in magnetic
confinement experiments using the tokamak approach; and

Whereas,

This work culminated in the world-record performance of the Tokamak Fusion Test
Reactor, which operated from 1982 to 1997; and

Whereas,

Beginning in 1993, the Tokamak Fusion Test Reactor was the first in the world
to use 50/50 mixtures of deuterium-tritium, yielding an unprecedented 10.7
million watts of fusion power; and

Whereas,

The Princeton Plasma Physics Laboratory remains a United States Department of
Energy national laboratory managed by Princeton University; and

Whereas,

The Princeton Plasma Physics Laboratory is developing the Princeton Plasma
Innovation Center to support new research in artificial intelligence, microelectronics,
quantum sensors and devices, and other technologies to maintain United States�
leadership in key industries; and

Whereas,

The Princeton Plasma Physics Laboratory plans to repurpose the Tokamak Fusion
Test Reactor site as a Fusion Research and Technology Hub to develop fusion
energy and plasma-based technologies; and

Whereas,

Scientists and researchers at the Princeton Plasma Physics Laboratory, and its
partner organizations, are making pivotal contributions to the state of science
in the United States and the world, many of which have been recognized by the
American Physical Society and others; and

Whereas,

Such projects and recognition speak to the Princeton Plasma Physics
Laboratory�s mission of developing the scientific knowledge and advanced
engineering to enable fusion to power the United States and the world, to
advance the science of nanoscale fabrication and sustainable manufacturing for
the technologies of tomorrow, and to further the development of the scientific
understanding of the plasma universe from laboratory to astrophysical scales;
now, therefore,

����
Be It
Resolved
by the Senate and General Assembly of
the State of New Jersey:

���� 1.� The State of New Jersey
commemorates the 75th anniversary of the Princeton Plasma Physics Laboratory.

���� 2.� Copies of this resolution,
as filed with the Secretary of State, shall be transmitted by the Clerk of the
General Assembly or the Secretary of the Senate to the Princeton Plasma Physics
Laboratory, the American Physical Society, and the United States Library of
Congress. �

���� 3.� This joint resolution
shall take effect immediately.

STATEMENT

���� This resolution commemorates
the 75th anniversary of the Princeton Plasma Physics Laboratory.� In July 1951,
the United States Atomic Energy Commission approved funding for the
construction of a magnetic plasma device to study controlled fusion at
Princeton University under the direction of Dr. Lyman Spitzer, Jr.� The
research effort became part of Project Matterhorn, a classified project
studying the hydrogen bomb during the Cold War between the United States and
the former Soviet Union.�

���� The 1950s proved to be a
period of incredible scientific growth in the world of plasma physics, due in
large part to the achievements of the scientists at the Princeton Plasma
Physics Laboratory.� In 1959, Princeton University awarded its first doctoral degree
in plasma physics.� Two years later, Dr. Melvin B. Gottlieb succeeded Dr. Lyman
Spitzer, Jr., as the head of Project Matterhorn and the project was renamed the
Princeton Plasma Physics Laboratory.

���� Throughout the rest of the
20th century, the Princeton Plasma Physics Laboratory continued to be a leader
in magnetic confinement experiments using the tokamak approach, culminating in
the world-record performance of the Tokamak Fusion Test Reactor, which operated
from 1982 to 1997.� Beginning in 1993, the Tokamak Fusion Test Reactor was the
first in the world to use 50/50 mixtures of deuterium-tritium, yielding an
unprecedented 10.7 million watts of fusion power.

���� Today, the Princeton Plasma
Physics Laboratory is developing the Princeton Plasma Innovation Center to
support new research in artificial intelligence, microelectronics, quantum
sensors and devices, and other technologies to maintain US leadership in key
industries.� The laboratory also plans to repurpose the Tokamak Fusion Test
Reactor site as a Fusion Research and Technology Hub to develop fusion energy
and plasma-based technologies.� In addition, scientists and researchers at the
Princeton Plasma Physics Laboratory, and its partner organizations, are making
pivotal contributions to the state of science in the US and the world, many of
which have been recognized by the American Physical Society and others.

���� Such projects and recognition
speak to the laboratory�s mission of developing the scientific knowledge and
advanced engineering to enable fusion to power the US and the world, to advance
the science of nanoscale fabrication and sustainable manufacturing for the technologies
of tomorrow, and to further the development of the scientific understanding of
the plasma universe from laboratory to astrophysical scales.